Chairs
| A. C. Arias |
|
Palo Alto Research Center |
| N. Tessler |
|
Technion |
| L. Burgi |
|
CSEM |
| J. A. Emerson |
|
Sandia National Laboratories |
Symposium Support
Ciba SC
Covion Organic Semiconductors
CSEM SA
Merck Chemicals UK
OrganicID, Inc.
Palo Alto Research Center
Plastic Logic Ltd.
Universal Display Corporation Inc.
Proceedings
to be published online
(see ONLINE PUBLICATIONS at www.mrs.org)
as volume 871E
of the Materials Research Society
Symposium Proceedings Series.
This volume may be published in print format after the
meeting.
* Invited paper
TUTORIAL
Device Physics, Charge Transport, Applications and Processing in Organic Electronics
Monday March 28, 2005
1:30 PM - 5:00 PM
Room 2001 (Moscone West)
The tutorial will be composed of two sections covering (1) the basic processes governing the operation of organic thin film devices and (2) applications and processing approaches for these devices. The first section will describe charge injection (contact phenomena), Charge transport (mobility is disordered material), charge recombination (diffusion controlled reaction), and electron-hole pair dissociation in the context of the relevant devices: Field effect transistors, Light emitting diodes, solar cells (with an emphasis on FETs). As there is no 100% agreement in the field regarding the physical models we will describe several models and compare the underlying basic assumption and scope for each physical picture. The second portion of the tutorial will give an overview of the various applications for organic electronics, including RF labels, displays, LEDs and photovoltaics. This discussion will also include comparisons of the unique processing, performance and materials challenges for these applications and the printing, deposition and patterning technologies being developed to meet these challenges and create the targeted new functionality and low cost products.
Instructors:
Nir Tessler, Technion, Israel
J. Devin MacKenzie, Kovio Inc.
SESSION I1: Materials and Organic Devices
Chair: Nir Tessler
Tuesday Morning, March 29, 2005
Room 2001 (Moscone West)
8:30 AM I1.1
Memory Elements Based on Polymer Nanoparticles Blends. Luisa
Dominica Bozano1, Ryan Chiechi3,
Kenneth R. Carter2 and J. Campbell Scott1; 1IBM
Almaden Research Center, San Jose, California; 2Polymer
Science and Engineering, University of Massachusetts, Amherst,
Massachusetts; 3Chemistry and Biochemistry and Exotic
Materials Institute, University of California Los Angeles,
Los Angeles, California.
8:45 AM *I1.2
Progress in Organic Thin Films for Memory Storage Applications. M. Lauters, B. McCarthy, D. Sarid and G. E. Jabbour; Department of Chemical and Materials Engineering & Flexible Display Center, Arizona State University, Tempe, Arizona.
9:15 AM I1.3
Functionalized Regioregular Polyalkylthiophenes for Biosensing Applications. Simon J. Higgins1, Fouzi Mouffouk1, Stewart J. Brown1, Bill Eccleston2, Andrew Cossins3, Daryl Williams3, Stuart Reeman4 and Naser Sedghi2; 1Department of Chemistry, University of Liverpool, LIVERPOOL, United Kingdom; 2Electrical Engineering and Electronics, University of Liverpool, LIVERPOOL, United Kingdom; 3Biosciences, University of Liverpool, LIVERPOOL, United Kingdom; 4Chemical and Biological Sciences, Dstl Porton Down, SALISBURY, United Kingdom.
9:30 AM I1.4
Non-Volatile Memory Effect in Polymer Based Device for Data-Storage
Applications. Yan Song1, Qidan Ling2,
Shijin Ding1, Chunxiang Zhu1, Yihua Wang3,
Siu Hung,Daniel Chan1, En-Tang Kang2 and
Dim-Lee Kwong4; 1Electrical and Computer
Engineering, National University of Singapore, Singapore, Singapore; 2Chemical
and Biomolecular Engineering, National University of Singapore,
Singapore, Singapore; 3Institute of Microelectronics,
Singapore, Singapore; 4Electrical and Computer Engineering,
The University of Texas, Austin, Austin, Texas.
9:45 AM I1.5
Stability of OTFT Gas Sensors. Josephine B. Lee and Vivek Subramanian; EECS, UC Berkeley, Berkeley, California.
10:00 AM BREAK
10:15 AM I1.6
Modeling of Spin Injection and Spin Transport Properties
in Organic and Inorganic Semiconductors. P. P. Ruden1,
J. D. Albrecht2 and D. L. Smith3; 1University
of Minnesota, Minneapolis, Minnesota; 2Air Force
Research Laboratory, Wright-Patterson AFB, Ohio; 3Los
Alamos National Laboratory, Los Alamos, New Mexico.
10:30 AM *I1.7
Organic-Based Magnetic and Non-Magnetic Semiconductors for
Spintronics. Arthur J. Epstein1,2, Joel S. Miller3 and Liming Dai4; 1Department of Physics, The Ohio State University, Columbus, Ohio; 2Department of Chemistry, The Ohio State University, Columbus, Ohio; 3Department of Chemistry, University of Utah, Salt Lake City, Utah; 4Department of Chemical and Materials Engineering, University of Dayton, Dayton, Ohio.
11:00 AM I1.8
Large Magnetoresistance at Room-Temperature in Semiconducting
Polymer Sandwich Devices. Govindarajan Veeraraghavan1,
Omer Mermer2, Thomas Lee Francis1, Yugang
Sheng2, Tho Duc Nguyen2 and Markus Wohlgenannt2; 1Department
of Electrical & Computer Engineering, University of Iowa, Iowa
city, Iowa; 2Department of Physics and Astronomy,
University of Iowa, Iowa city, Iowa.
11:15 AM I1.9
High-Temperature Operation of Pentacene Field-Effect Transistors with Polyimide Gate Insulators. Tsuyoshi Sekitani1, Yusaku Kato1, Shingo Iba1, Takayasu Sakurai2 and Takao Someya2; 1QPEC, Univ. of Tokyo, Bunkyo-ku, Tokyo, Japan; 2CCR, Univ. of Tokyo, Meguro-ku, Tokyo, Japan.
11:30 AM I1.10
Organic-Inorganic Hybrid Encapsulation for P3HT Field-Effect
Transistors. Noriyuki Kawashima, Kazumasa Nomoto, Masaru Wada and Jiro Kasahara; Fusion Domain Laboratory, Materials Laboratories, Sony Corporation, Ohta-ku, Tokyo, Japan.
11:45 AM I1.11
General Observation of n-Type Field-Effect Behaviour in Organic Semiconductors. Lay-Lay Chua1,2, Peter K.-H. Ho2,1, Jana Zaumseil1, Jui-Fen Chang1, Eric Ou3, Henning Sirringhaus1 and Richard H. Friend1; 1Physics, University of Cambridge, Cambridge, United Kingdom; 2Physics, National University of Singapore, Singapore, Singapore; 3Institute of Materials Research and Engineering, Singapore, Singapore.
SESSION I2: Materials Synthesis and Devices
Chair: Michael Chabinyc
Tuesday Afternoon, March 29, 2005
Room 2001 (Moscone West)
1:30 PM *I2.1
Self-Organisation
of Nanocrystals in Polymer Brushes: Application in Heterojunction
Photovoltaic Diodes. Richard Friend1,
Henry Snaith1, Gregory Whiting2, Neil
Greenham1
and Wilhelm Huck2; 1Cavendish Laboratory,
University of Cambridge, Cambridge, United Kingdom; 2Department
of Chemistry, University of Cambridge, Cambridge, United
Kingdom.
2:00 PM I2.2
Nanowire Electrode for Organic Transistors. Shuhong
Liu and Zhenan Bao; Chemical Engineering, Stanford University,
Stanford, California.
2:15 PM I2.3
Organic Thin Film Transistors with Contacts Printed from
Metal Nanoparticles. Yiliang Wu, Yuning Li, Sandra
Gardner and Beng Ong; Xerox Research Centre of Canada, Mississauga,
Ontario, Canada.
2:30 PM *I2.4
Structure/Property Relations in Electroactive Polymers.
Mary Galvin, Materials Science and Engineering, University
of Delaware, Newark, Delaware; University of Delaware, Newark,
Delaware.
3:00 PM BREAK
3:30 PM I2.5
Molecular Design and Synthesis of New Electrochromic Polymers
with Various Colors. Lu Liu, Chunye Xu, Dai Ning,
Calen Kaneko and Minoru Taya; Mechanic Engineering, University
of Washington, Seattle, Washington.
3:45 PM I2.6
High Contrast Ratio and Long Lifetime Polymer Electrochromic
Devices (ECDs). Chunye Xu, Dai Ning, Lu Liu, Calen
Kaneko, Fengyu Su and Minoru Taya; University of Washington,
Seattle, Washington.
4:00 PM *I2.7
Recent Work of the Organic Materials for Electronics Consortium
of the EPSRC, UK. Michael Lewis Turner1,
Martin Grell2, Philip Hodge1, J. Emyr
Macdonald3 and Stephen G. Yeates4; 1School
of Chemistry, University of Manchester, Manchester, United Kingdom;
2Department of Physics, University of Sheffield,
Sheffield, United Kingdom; 3Department of Physics,
University of Cardiff, Cardiff, United Kingdom; 4Avecia
Ltd, Manchester, United Kingdom.
4:30 PM I2.8
Highly Efficient Multifunctional Phosphorescent Dendrimers
Consisting of an Iridium-Complex Core and Charge-Transporting
Dendrons for Organic Light-Emitting Devices. Toshimitsu
Tsuzuki1, Nobuhiko Shirasawa2, Toshiyasu
Suzuki2 and Shizuo Tokito1; 1Scicence
and Technical Research Laboratories, Japan Broadcasting Corporation
(NHK), Setagaya-ku, Tokyo, Japan; 2Research Center
for Molecular-scale Nanoscience, Institute for Molecular Science,
Okazaki, Aichi, Japan.
4:45 PM I2.9
Substituted Indolo[3,2-b]carbazoles: A New Class of Stable,
High Mobility Organic Semiconductors for Thin Film Transistors.
Yuning Li, Yiliang Wu and Beng S. Ong; Materials Design
and Integration Laboratory, Xerox Research Centre of Canada,
Mississauga, Ontario, Canada.
SESSION I3: Poster Session: Organic Based Materials and Devices
Chairs: Ana Claudia Arias, Lukas Burgi, John Emerson and Nir
Tessler
Tuesday Evening, March 29, 2005
8:00 PM
Salons 8-15 (Marriott)
I3.1
Ambipolar Charge Transport in Poly(3-hexylthiophene) (P3HT)
Field-Effect Transistors. Jana Zaumseil1,
Lay-Lay Chua1,2, Peter K. H. Ho2,1, Richard
H. Friend1 and Henning Sirringhaus1; 1Cavendish
Laboratory, University of Cambridge, Cambridge, United Kingdom;
2Department of Physics, National University of Singapore,
Singapore, Singapore.
I3.2
Molecular Dielectric Multilayers for Ultra-Low-Voltage Organic
Thin Film Transistors. Myung-Han Yoon, Antonio Facchetti
and Tobin J. Marks; Chemistry, Northwestern University, Evanston,
Illinois.
I3.3
Control of Thin Film Transistor Operations with Polar Self-Assembled
Monolayers. Yoshi Iwasa1, Takao Nishikawa2,
Shin-ichiro Kobayashi1, Taishi Takenobu1,
Tatsuya Shimoda2, Tadaoki Mitani2,
Hisao Ishii3 and Michio Niwano3; 1Institute
for Materials Reserch, Tohoku University, Sendai, Japan; 2School
of Materilas Science, JAIST, Ishikawa, Japan; 3Research
Institute for Electrical Communication, Tohoku University,
Sendai,
Japan.
I3.4
Self-Encapsulated Polymer Films: Improved Environmental Stability
of Thin-Film Transistors. Ana Claudia Arias, Fred
Endicott and Robert A. Street; Palo Alto Research Center, Palo
Alto, California.
I3.5
Photo-Induced Effects in Organic Field-Effect Transistors.
Vitaly Podzorov1, Vladimir Pudalov2
and Michael Gershenson1; 1Physics Department,
Rutgers University, Piscataway, New Jersey; 2Lebedev
Physical Institute, Moscow, Russian Federation.
I3.6
Organic Thin
Film Phototransistors: Materials and Mechanism.
Dong-Yu Kim1, Yong-Young Noh1 and
Kiyoshi Yase2; 1Dept. of Materials Science
and Engineering, Gwangju Institute of Science and Technology
(K-JIST), Gwangju, South Korea; 2Photonic Research
Institute, National Institute of Advanced Industrial Science
and Technology (AIST), Tsukuba, Japan.
I3.7
Orientation of Organic Semiconductor Films on Photoreactive
Polyimide Films and its Influence on Field-Effect Transistor
Characteristics. Hiroshi Kikuchi1, Yuichiro
Uchida2, Yoshihide Fujisaki1, Hiroto Sato1,
Taiichiro Kurita1, Kuniharu Takizawa2
and Fumio Sato1; 1NHK Science & Technical
Research Laboratories, Tokyo, Japan; 2Seikei University,
Tokyo, Japan.
I3.8
A Novel Concept of Vertical Organic Transistor with Low
Working Voltage and High Output Current. Liping Ma and
Yang Yang; MSE, UCLA, Los Angeles, California.
I3.9
Low Voltage All-Polymer Transistor Utilizing a Hygroscopic
Insulator. Tomas G. Backlund1, Henrik
G. O. Sandberg1,2, Ronald Osterbacka1 and
Henrik Stubb1; 1Physics, Abo Akademi,
Turku, Finland; 2VTT Information Technology,
Espoo, Finland.
I3.10
Design and Synthesis of Functionalized Pentacene for Organic
Field-Effect Transistors. Abhijit Basu Mallik,
Mang-mang Ling and Zhenan Bao; Chemical Engineering, Stanford
University,
Stanford, California.
I3.11
Fullerene Based n-Type Organic Thin-Film Transistors.
Joshua N. Haddock, Benoit Domercq and Bernard Kippelen;
School of Electrical and Computer Engineering, Georgia Institute
of Technology, Atlanta, Georgia.
I3.12
High Performance Organic Thin Film Transistors Based on
Cyclohexyl-Substituted Organic Semiconductors. Jason
Locklin1,
Zhenan Bao2 and Rigoberto Advincula1;
1Chemistry, University of Houston, Houston, Texas;
2Chemical Engineering, Stanford University, Stanford,
California.
I3.13
Impact of Polymer Nanostructure on Performance of Regioregular
Poly(3-hexylthiophene) Thin Film Transistor. Shijun
Jia1,2,
Troy D. Hammond1, Shawn P. Williams1,
Richard D. McCullough2 and Tomasz Kowalewski2;
1Plextronics, Inc., Pittsburgh, Pennsylvania; 2Department
of Chemistry, Carnegie Mellon University, Pittsburgh, Pennsylvania.
I3.14
Charge Carrier Transport in Field Effect Transistors Based
on Tricyanovinyl-Capped Oligothiophenes. Xiuyu Cai1,
Michael Burand2, Christopher Newman1,
Kent Mann2 and C. Daniel Frisbie1; 1Department
of Chemical Engineering and Materials Science, University of
Minnesota, Twin Cities, Minneapolis, Minnesota; 2Department
of Chemistry, University of Minnesota, Twin Cities, Minneapolis,
Minnesota.
I3.15
High Performance Stable Thin Film Field Effect Transistors
(TFTs) from Novel Organic Semiconductors Bis-thiophenyl-2,6-Anthracenes.
Hong Meng, DuPont Company, Wilmington, Delaware.
I3.16
Surface and Interfacial Study of Organic Semiconductor Field
Effect Transistor for Label-less DNA Biosensor. Melissa
Stickle1, Sandrine Rivillon2, Yves
J. Chabal1, Refik Kortan5, Zhenan Bao3,
Vitaly Podzorov2, Michael Gershenson2
and Howard Katz4; 1Biomedical Engineering,
Rutgers University, Piscataway, New Jersey; 2Physics
and Astronomy, Rutgers University, Piscataway, New Jersey; 3Chemical
Engineering, Stanford University, Stanford, California; 4Materials
Science and Engineering, Johns Hopkins University, Baltimore,
Maryland; 5Rutgers University, Piscataway, New Jersey.
I3.17
Single Molecular Layer Thin Film Transistors. Veit
Wagner, Tobias Muck and Juergen Fritz; School of Engineering
and Science, International University Bremen, Bremen, Germany.
I3.18
Effective Dopant Analysis for the High Performance Poly(3-Hexylthiophene)
Field-Effect Transistors. Shinichi Kawamura1,2,
Manabu Yoshida3, Satoshi Hoshino3 and
Toshihide Kamata3; 1R&D Center, RICOH,
Yokohama, Japan; 2Optoelectronic Industry and Technology
Development Association, Tokyo, Japan; 3National
Institute of Advanced Industrial Science and Technology, Tsukuba,
Japan.
I3.19
Programmable Polymer Thin Film and Nonvolatile Memory Device.
Jianyong Ouyang1, Chil-Wei Chu1,
Liping Ma1 and Yang Yang1; 1Materials
Science & Engineering, UCLA, Los Angeles, California; 2Materials
Science & Engineering, UCLA, Los Angeles, California; 3Materials
Science & Engineering, UCLA, Los Angeles, California; 4Materials
Science & Engineering, UCLA, Los Angeles, California.
I3.20
Transferred to I8.8.
I3.21
Surface and Solvent Mediated Molecular Ordering of Polythiophenes
and Its Effect on Field-Effect Mobility in Thin Film Transistors.
Kilwon Cho, Do Hwan Kim, Yeong Don Park and Yunseok Jang;
Chemical Engineering, Pohang University of Science and Technology,
Pohang, South Korea.
I3.22
Organic Field Effect Transistors Based on Multilayer Films
via Molecular Layer Epitaxy. Yuval Ofir1,
Joseph Shappir2 and Shlomo Yitzchaik1;
1Inorganic Chemistry, Hebrew University of Jerusalem,
Jerusalem, Israel; 2Applied Physics, Hebrew University
of Jerusalem, Jerusalem, Israel.
I3.23
Polymer Display with Integrated Optical Proximity and Touch
Sensor. Lukas Burgi, Reto Pfeiffer, Michael Kiy,
Peter Seitz, Peter Metzler and Carsten Winnewisser; CSEM,
Zurich,
Switzerland.
I3.24
Electroluminescence Spectral Imaging in Polymer Blend Light
Emitting Diodes. Noriyuki Takada, Kiyohiko Tsutsumi
and Toshihide Kamata; Photonics Research Institute, National
Institute of Advanced Industrial Science and Technology, Tsukuba,
Ibaraki, Japan.
I3.25
Efficient Red, Green, and Blue OLEDs Using Heteroleptic
Iridium Tris-Cyclometalates. Arnold Tamayo1,
Biwu Ma2, Peter Djurovich1 and Mark
E. Thompson1,2;
1Chemistry, University of Southern California, Los
Angeles, California; 2Material Science, University
of Southern California, Los Angeles, California.
I3.26
ABSTRACT WITHDRAWN
I3.27
Influence of Cavity Q-Factor on Near-Infrared Emitting
Microcavity Organic Light Emitting Diodes. Chi Hang Cheung1,
Aleksandra B. Djurisic1, Chung Yin Kwong2,
Hoi Lam Tam4, Kok Wai Cheah4, Zheng
Tong Liu1, Wai Kin Chan3 and Po Ching
Chui2;
1Department of Physics, The University of Hong Kong,
Hong Kong, Hong Kong; 2Department of Electrical
and Electronic Engineering, The University of Hong Kong,
Hong Kong,
Hong Kong; 3Department of Chemistry, The University
of Hong Kong, Hong Kong, Hong Kong; 4Department
of Physics, Hong Kong Baptist University, Hong Kong, Hong
Kong.
I3.28
One and Two-Color Tandem Organic Photovoltaic Cells. Leonidas
C. Palilis1,2, Gary K. Kushto1,
Woohong Kim1,2 and Zakya H. Kafafi1,2; 1Naval
Research Laboratory, Washington, District of Columbia; 2SFA
Inc., Largo, Maryland.
I3.29
Improving the Interface in Organic-Inorganic Hybrid Photovoltaic
Cells. Yuxiang Liu1, Shawn Scully1,
Natalya Dallas1, Michael McGehee1, Carine
Edder2, Jinsong Liu3, Jean Frechet3
and Sean Shaheen4; 1Stanford University,
Stanford, California; 2Molecular Foundry, Berkeley,
California; 3UC Berkeley, Berkeley, California; 4NREL,
Golden, Colorado.
I3.30
Hybrid Solar Cells Based on Nanoporous TiO2 and a New Spirofluorene-Thiophene
Copolymer with Oxidative Stability. Jang Jo, Doojin
Vak, Seok-Soon Kim, Yong-Young Noh and Dong-Yu Kim; Dept. of
Materials Science and Engineering, Gwangju Institute of Science
and Technology (GIST), Gwangju, South Korea.
I3.31
Absorption Quenching and Photovoltaic Effect in Poly(3-hexylthiophene)
Thin Films Blended with Functionalized C60 Derivatives. Vishal
Shrotriya, Jianyong Ouyang, Gang Li and Yang Yang; Materials
Science and Engineering, University of California Los Angeles,
Los Angeles, California.
I3.32
Advantages of a Novel Method for Direct-Write Fabrication
of Polymer Devices. Paul Rugheimer, B. J. Larson,
M. G. Lagally and Padma Gopalan; Materials Science and Engineering,
University of Wisconsin - Madison, Madison, Wisconsin.
I3.33
Carrier-Injection and Transport Mechanism of in-situ Polymerized
Polyaniline Films. Rodrigo Fernando Bianchi1,2,
Silmar Antonio Travain1 and Jose Alberto Giacometti3;
1Departmento de Fisica e Ciencia dos Materiais, Universidade
de Sao Paulo, Sao Carlos, Sao Paulo, Brazil; 2Departamento
de Sistemas Eletronicos, Escola Politecnica da Universidade
de Sao Paulo, Sao Paulo, Sao Paulo, Brazil; 3Faculdade
de Ciencia e Tecnologia, Unesp, Presidente Prudente, Sao Paulo,
Brazil.
I3.34
A Combined Optical Approach to Structural Determination
of Semi-Conducting Polymer Thin Films. Marc Gurau1,
Dean DeLongchamp2 and Lee Richter1; 1Surface
and Microanalysis Science Division, National Institute of
Standards
and Technology, Gaithersburg, Maryland; 2Polymers
Division, National Institute of Standards and Technology,
Gaithersburg,
Maryland.
I3.35
Time Dependent Parallel Resistance in an Organic Schottky
Contact. Arash Takshi and John D. Madden; Electrical
and Computer Engineering, University of British Columbia (UBC),
Vancouver, British Columbia, Canada.
I3.36
Improving the Charge Carrier Mobility of Conjugated Polymers
by Chain Alignment in Nanopores. Bhavani Srinivasan1,
Kevin M. Coakley1, Chia Goh1, Yuxiang
Liu2 and Michael D. McGehee1; 1Department
of Materials Science Engineering, Stanford University,
Stanford,
California; 2Department of Chemistry, Stanford University,
Stanford, California.
I3.37
Ambipolar Charge Transport in a Methanofullerene. Sachetan
M. Tuladhar1, James Kirkpatrick1,
Stelios A. Choulis2, Dmitry Poplavskyy2,
Donal D. C. Bradley1 and Jenny Nelson1;
1Department of Physics, Imperial College London,
London, United Kingdom; 2OSRAM, Opto Semiconductors,
Inc., San Jose, California.
I3.38
ABSTRACT WITHDRAWN
I3.39
Control of Ferroelectric Poly (Vinylidene Fluoride-Co-Trifluoroethylene)/Metal
Electrode Interfaces Using Self Assembled Monolayers. Cheolmin
Park and Youn Jung Park; Materials Science and Engineering,
Yonsei University, Seoul, South Korea.
I3.40
The Role of Symmetry and Charge Delocalization in Two-Dimensional
Conjugated Molecules for Optoelectronic Applications. Hermona
Christian1, Zukhra I. Niazimbetova2
and Mary E. Galvin1; 1Materials Science
and Engineering, University of Delaware, Newark, Delaware; 2Rohm
and Haas Electronic Materials, LLC, Marlborough, Massachusetts.
I3.41
Layer-by-Layer J-Aggregate Thin Films with Absorption Constant
of 106 cm-1 in Optoelectronic Applications.
M. Scott Bradley, Jonathan R. Tischler and Vladimir
Bulović;
Electrical Engineering and Computer Science, Massachusetts
Institute of Technology, Cambridge, Massachusetts.
I3.42
Indium-Tin Oxide Surface Modification via Solution Etching,
Small Molecules and Polymers: Enhancement of Electron Transfer
Rates to Probe Molecules. Fathima Saneeha Marikkar,
Rolnald Wysocki, Michael Brumbach, Chet Carter, Adam G. Simmonds
and Neal R. Armstrong; Chemistry, University of Arizona, Tucson,
Arizona.
I3.43
ABSTRACT WITHDRAWN
I3.44
Exploring Charge Transfer and Transport in Conjugated Polymer
Films with Scanning Probe Microscopy. David Coffey1
and David Ginger2; 1Physics, University
of Washington, Seattle, Washington; 2Chemistry, University
of Washington, Seattle, Washington.
I3.45
Transferred to I8.9.
I3.46
The Effect of Oxygen Exposure on Pentacene Electronic Structure.
Antje Vollmer1, Oana D. Jurchescu2, Imad
Arfaoui2, Thomas T. M. Palstra2, Petra
Rudolf2, Jens Niemax3, Jens Pflaum3,
Ingo Salzmann4, Juergen P. Rabe4 and Norbert
Koch4; 1BESSY GmbH, Berlin, Germany;
2Materials Science Center, Rijksuniversiteit Groningen,
Groningen, Netherlands; 33. Physikalisches Institut,
Stuttgart University, Stuttgart, Germany; 4Institut
f. Physik, Humboldt University Berlin, Berlin, Germany.
I3.47
Study and Comparison of Conducting Polymer Hole Injection
Layers in Light Emitting Devices. Carl Tengstedt1,
Che-H. Hsu2, Chi Zhang3, Ian D. Parker3,
William R. Salaneck4 and Mats Fahlman1;
1Department of Science and Technology, Linkopings
University, Norrkopig, Sweden; 2Experimental Station,
Dupont Displays, Wilmington, Delaware; 3Dupont Displays,
Santa Barbara, California; 4Department of Physics,
Linkopings University, Linkoping, Sweden.
I3.48
Rational Design of N-Type Semiconductor Materials for Organic
Electronics. Colin C. Reese, Nels C. Hansen, Mang-Mang
Ling, Mark Roberts, Abhijit Mallik and Zhenan Bao; Chemical
Engineering, Stanford University, Stanford, California.
I3.49
ABSTRACT WITHDRAWN
SESSION I4: Charge Transport and Device Physics
Chair: Timothy Von Werne
Wednesday Morning, March 30, 2005
Room 2001 (Moscone West)
8:30 AM *I4.1
Charge Transport and Electrical Stability in Poly(thiophene)
Thin-Film-Transistors. Alberto Salleo1,
Armin Voelkel1, Tze Wee Chen2, Michael
Chabinyc1, John Northrup1 and Robert
Street1;
1PARC, Palo Alto, California; 2Electrical
Engineering Dept., Stanford University, Palo Alto, California.
9:00 AM I4.2
Combined Electrochemical Kinetic and Electronic Transport
Model of the Doping of a Thin Conjugated Polymer Film. Nathaniel
D. Robinson and Magnus Berggren; ITN - Organic Electronics,
Linkoping University, Norrkoping, Sweden.
9:15 AM I4.3
Semi-Analytical Models of the Carrier Concentration Dependence
of the Mobility in Organic Materials with Gaussian Disorder.
R. Coehoorn, Philips Research Laboratories, Eindhoven,
Netherlands.
9:30 AM I4.4
Intrinsic Charge Transport in Organic Field-Effect Transistors.
Vitaly Podzorov1, Etienne Menard2,
Valery Kiryukhin1, John Rogers2 and
Michael Gershenson1; 1Physics Department,
Rutgers University, Piscataway, New Jersey; 2Dept.
of Materials Science and Engineering, University of Illinois
at Urbana Champaign,
Urbana, Illinois.
9:45 AM I4.5
Nanoscale Measurements of Transport and Injection in Undoped/Doped
Organic Thin Film Transistors. Oren Tal1,
Calvin K. Chan2, Yohai Roichman3, Nir
Tessler3, Antoine Kahn2 and Yossi
Rosenwaks1;
1Electrical Engineering - Physical Electronics,
Tel Aviv University, Tel Aviv, Israel; 2Electrical
Engineering, Princeton University, Princeton, New Jersey; 3Electrical
Engineering, Technion, Israel Institute of Technology, Haifa,
Israel.
10:00 AM BREAK
10:15 AM *I4.6
Modelling of Charge Transport in Organic Electronic Materials.
Jenny Nelson1, Amanda Jane Chatten1,
James Kirkpatrick1, Sachetan Man Tuladhar1,
Dmitry Poplavskyy2 and Donal D. C. Bradley1;
1Department of Physics, Imperial College London,
London, United Kingdom; 2OLED Research and Development,
Osram Opto Semiconductors Inc, San Jose, CA 95134, California.
10:45 AM I4.7
Turn-on and Charge Build-up Dynamics in Polymer Field
Effect Transistors. Yohai Roichman and Nir Tessler; Electrical
Engineering, Technion, Haifa, Israel.
11:00 AM I4.8
Electron Transport in Poly (dialkoxy-p-phenylene vinylene).
M. M. Mandoc, B. de Boer and P. W. M. Blom; Materials
Science Centre, University of Groningen, Groningen, Netherlands.
11:15 AM I4.9
High Electron Mobility Organic Field-Effect Transistors
Using Fullerene Thin Films. Birendra Thokchom Singh1,
Nenad Marjanovic1, Gebhard Josef Matt1,
Serap Gunes1, Niyazi Serdar Sariciftci1,
Alberto Montaigne Ramil2, Andrei Andreev2,
Helmut Sitter2, Reinhard Schwoediauer3
and Siegfried Bauer3; 1Linz Institute
of Organic Solar Cells(LIOS), Physical Chemistry, Johannes Kepler
University, Linz, Austria; 2Institute of Semiconductor-
and Solid State Physics, Johannes Kepler University, Linz, Austria;
3Soft Matter Physics, Johannes Kepler University,
Linz, Austria.
11:30 AM I4.10
Organic CMOS Technology Based on Interface Doped Pentacene.
Marcus Ahles, Roland Schmechel and Heinz von Seggern;
Materials Science, TU Darmstadt, Darmstadt, Germany.
11:45 AM I4.11
Electric Field Dependent Transition from Dispersive to Non-Dispersive
Transport in Conjugated Polymers. Lucas Fugikawa Santos1,
Gregorio Couto Faria2,1, Antonio Rafael Andrade2,
Sergio Mergulhao2 and Roberto Mendonca Faria1;
1Instituto de Fisica de Sao Carlos, Sao Carlos,
SP, Brazil; 2Departamento de Fisica, Universidade
Federal de Sao Carlos, Sao Carlos, SP, Brazil.
SESSION I5: Photovoltaics
Chair: Lukas Burgi
Wednesday Afternoon, March 30, 2005
Room 2001 (Moscone West)
1:30 PM *I5.1
Development of Nano-Structured Oxide Electron Conductors
for Organic Photovoltaic Cells. David S. Ginley1,
Sean Shaheen1, Matthew White2, Calvin
Curtis1, Alex Miedaner1, Rueben Collins3
and Dana Olson3; 1PV&EM, NREL, Golden,
Colorado; 2Physics, University of Colorado, Boulder,
Colorado; 3Physics, Colorado School of Mines,
Golden, Colorado.
2:00 PM I5.2
Performance of Pentacene-C60 Heterojunction Photovoltaic
Devices. Sergey Mezhenny1, Mihaela Breban1,
Vince B. Ballaroto1, John E. Anthony2,
Ellen D. Williams1, Warren Herman1 and
Danilo B. Romero1; 1Laboratory for Physical
Sciences, University of Maryland, College Park, Maryland; 2Department
of Chemistry, University of Kentucky, Lexington, Kentucky.
2:15 PM I5.3
Geminate Charge Separation in Bulk Heterojunction Photovoltaic
Cells. Shanbin Zhao1 and Peter Peumans2;
1Materials Science and Engineering, Stanford University,
Stanford, California; 2Electrical Engineering,
Stanford University, Stanford, California.
2:30 PM I5.4
Surface Photovoltage in Polyfluorene-Based Polymer Blends:
Correlation Between Morphology and Electronic Properties.
Marco Chiesa1, Lukas Buergi1,2,
Ji-Seon Kim1, Rafi Shikler1, Richard H.
Friend1 and Henning Sirringhaus1; 1Cavendish
Laboratory, University of Cambridge, Cambridge, United Kingdom;
2CSEM, Zuerich, Switzerland.
2:45 PM I5.5
Exciton Migration and Quenching in Polymer Light-Emitting
Diodes and Solar Cells. Denis Markov, Teunis van
Woudenbergh, Alexander B. Sieval, Jan C. Hummelen and Paul W.
M. Blom; Materials Science Centre, University of Groningen,
Groningen, Netherlands.
3:00 PM BREAK
3:15 PM I5.6
A Study of Exciton Diffusion and Other Factors that Limit
the Performance of Organic Photovoltaics. Shawn R.
Scully,
Yuxiang Liu, Michael Rowell and Michael D. McGehee; Materials
Science and Engineering, Stanford University, Stanford, California.
3:30 PM I5.7
Solar Cells of Low-Bandgap Polyfluorenes. Mats R.
Andersson1, Erik Perzon1, Wendimagegn
Mammo1, Xiangjun Wang2, Fengling Zhang2,
Frederick Oswald3, Juan Luis Delgado3,
Pilar de la Cruz3, Fernando Langa3 and
Olle Inganas2; 1Materials and Surface
Chemistry, Gothenburg, Sweden; 2Bimolecular and Organic
Electronics, Linkoping, Sweden; 3Facultad de Ciencias
del Medio Ambiente, Toledo, Spain.
3:45 PM *I5.8
Device Operation of Polymer-Fullerene Bulk Heterojunction
Solar Cells. Valentin D. Mihailetchi, Jan Anton Koster,
J. C. (Kees) Hummelen and Paul W.M. Blom; Materials Science
Centre, University of Groningen, Groningen, Netherlands.
4:15 PM I5.9
Organic/Inorganic Hybrid Thin-Film Silicon Solar Cells with
Conducting Polymer p-Layer. Evan L. Williams1,
Qi Wang2, Sean E. Shaheen2, David S. Ginley2,
Eric A. Schiff3 and Ghassan E. Jabbour1;
1Department of Chemical and Materials Engineering & Flexible
Display Center, Arizona State University, Tempe, Arizona; 2National Renewable Energy Laboratory, Golden,
Colorado; 3Department of Physics, Syracuse University,
Syracuse, New York.
4:30 PM I5.10
Power Dependence and Turn-on Dynamics of Polymer Photocells - Extracting Mobilities and Analyzing Morphologies. Noam Rappaport and Nir Tessler; Electrical Engineering, Technion Israel Institute of Technology, Haifa, Israel.
4:45 PM I5.11
Broad Photocurrent Spectral Response Window of Solar Cells with Low-Bandgap Copolyfluorene and C70-Fullerene. Xiangjun Wang1, Erik Perzon2, Juan Luis Delgado3, Fernando Langa3, Mats Andersson2 and Olle Inganas1; 1Biomolecular and organic electronics, Linkoping University, Linkoping, Sweden; 2Materials and Surface Chemistry, Chalmers University of Technology, Goteberg, Sweden; 3Facultad de Ciencias del Medio Ambiente, Universidad de Castilla-La Mancha, Toledo, Spain.
SESSION I6: Poster Session: Organic Based Materials and Devices
Chairs: Ana Claudia Arias, Lukas Burgi, John Emerson and Nir Tessler
Wednesday Evening, March 30, 2005
8:00 PM
Salons 8-15 (Marriott)
I6.1
A Structural Investigation of PF6- Doped Polypyrrole as a Function of Oxidation State. Mya R. Warren1, J. D. Madden2 and B. Bergersen1; 1Physics and Astronomy, University of British Columbia, Vancouver, British Columbia, Canada; 2Electrical and Computer Engineering, University of British Columbia, Vancouver, British Columbia, Canada.
I6.2
Pentacene Transistors with Polymer Gate Dielectrics on Metallized Optical
Fibers. Jimmy Erik Granstrom and Howard Katz; Materials Research,
Bell Labs, Lucent Technologies, Murray Hill, New Jersey.
I6.3
Morphology, Optical Properties and Field-Effect Transistors Based on Electrospun
Nanofibers of Conjugated Polymers. Amit Babel1, Dan Li2, Younan Xia2 and Samson A. Jenekhe1,2; 1Department of Chemical Engineering, University of Washington, Seattle, Washington; 2Department of Chemistry, University of Washington, Seattle, Washington.
I6.4
A Self Aligned Fully Lithographic Process for Integrated OFETs. Ioannis Kymissis, Kevin Ryu, Akintunde I. Akinwande, Charles G. Sodini and Vladimir Bulovic; EECS, MIT, Cambridge, Massachusetts.
I6.5
New Phenylene Vinylene Based 2-Dimensional Oligomers with Cyano Groups for Optoelectronic Applications. Yashpal J. Bhandari1, Zukhra Niazimbetova2 and Mary E. Galvin1; 1Materials Science and Engineering, University of Delaware, Newark, Delaware; 2Rohm and Haas Electronic Materials, LLC, Marlborough, Massachusetts.
I6.6
Novel Dielectric Materials for Organic Electronics. Antonio Facchetti, Myung-Han Yoon and Tobin J. Marks; Northwestern University, Evanston, Illinois.
I6.7
Oriented Anthracene and Pentacene Thin Films. Randall L. Headrick1, Hua Zhou1, Binran Wang1, Ricardo Ruiz2, Alex C. Mayer2, George G. Malliaras2 and Alexander Kazimirov3; 1Department of Physics, University of Vermont, Burlington, Vermont; 2Department of Materials Science and Engineering, Cornell University, Ithaca, New York; 3Cornell High Energy Synchrotron Source, Cornell University, Ithaca, New York.
I6.8
Modeling the Organic Thin Film Transistors. Viorel Olariu1, Robert Rotzoll1, Siddharth Mohapatra2, Robert Wenz2, Michelle Grigas2, Oleg Shchekin2, Klaus Dimmler1, and Ananth Dodabalapur2,3; 1Design, OrganicID, Inc., Colorado Springs, Colorado; 2R&D Laboratory, OrganicID, Inc., Austin, Texas; 3The Department of Electrical and Computer Engineering, The University of Texas at Austin, Austin, Texas.
I6.9
Direct Observation of a Molecular Junction Using High-Energy X-ray Reflectometry. Michael Lefenfeld1,2, Julian Baumert2, Eli Sloutskin3, Moshe Deutsch3, Colin Nuckolls1 and Ben Ocko2; 1Chemistry, Columbia University, New York, New York; 2Physics, Brookhaven National Labs, Upton, New York; 3Physics, Bar-Ilan University, Ramat-Gan, Israel.
I6.10
Inkjet Printing of PEDOT:PSS Films for Organic Electronics. Lee Smith3,1,
Erik Garnett4, John Perkins1, Alex Miedaner1,
Calvin Curtis1, Tanya Kaydanova1, Andrew Leenheer3,1,
Maikel Van Hest1, Sean Shaheen1 and David S. Ginley1; 1PV&EM,
NREL, Golden, Colorado; 2PV&EM, NREL, Golden, Colorado; 3Physics,
Colorado School of Mines, Golden, Colorado; 4Chemistry, University
of California Berkeley, Berkeley, California.
I6.11
Design and Characterization of Noble Organic Heterojunction Photovoltaic Device. Changhee Ko, Yashpal Bhandari and Mary E. Galvin; Materials Science and Engineering, University of Delaware, Newark, Delaware.
I6.12
Tuning of Metal Work Functions with Self-Assembled Monolayers. Bert de Boer, Afshin Hadipour, Magda M. Mandoc and Paul W. M. Blom; Molecular Electronics, Materials Science Centre / University of Groningen, Groningen, Netherlands.
I6.13
Organic Light-Emitting Field-Effect Transistors Using Patterned Growth of
Two Organic Semiconductors. Stijn De Vusser1,2, Soeren Steudel1,2, Stijn De Jonge1, Jan Genoe1 and Paul Heremans1,2; 1MCP, IMEC, Heverlee, Belgium; 2ESAT, KULeuven, Leuven, Belgium.
I6.14
Conduction Polymer Deposition by Inkjet Printing. Ely Antonio Tadeu
Dirani1,2, Adriana Fatima Ferreira dos Santos1, Adnei
Melges de Andrade1, Fernando Josepetti Fonseca1, Rodrigo
Fernando Bianchi1 and Helena Liberatori Gimaiel1; 1Departamento
de Engenharia de Sistemas Eletronicos, Universidade de Sao Paulo, Sao Paulo,
SP, Brazil; 2Departamento de Engenharia Eletrica, Pontificia Universidade
Catolica de Sao Paulo, Sao Paulo, SP, Brazil.
I6.15
Patterning of Conjugated Polymer Films for Flexible Electrochromic Devices. Avni A. Argun and John R. Reynolds; Chemistry, University of Florida, Gainesville, Florida.
I6.16
Electropatterning and Nanopatterning of Conjugated Polymers Using the Precursor
Polymer Approach. Rigoberto Advincula, Chemistry, University of Houston,
Houston, Texas.
I6.17
Synthesis and Electronic and Optical Properties of New High Electron Affinity Conjugated Polymers. Yan Zhu1, Cheng-Tyng Yen1, Samson A. Jenekhe1 and Wen-Chang Chen2; 1Chemical Engineering, University of Washington, Seattle, Washington; 2Chemical Engineering, National Taiwan University, Taipei, Taiwan.
I6.18
Conjugated Oligoquinolines: n-Type Organic Semiconductors for Highly Efficient Blue Electroluminescence. Abhishek P. Kulkarni1, Angela P. Gifford2, Christopher J. Tonzola2 and Samson A. Jenekhe1,2; 1Chemical Engineering, University of Washington, Seattle, Washington; 2Chemistry, University of Washington, Seattle, Washington.
I6.19
Doping and Emission Profiles in Planar and Vertical Light-Emitting Electrochemical
Cell Architectures. Janelle Leger and Sue Carter; Physics, UC Santa
Cruz, Santa Cruz, California.
I6.20
Advanced Characterization of the Electronic Structure of MEH-PPV. David
Keith Chambers1 and Sandra Selmic1; 1Louisiana
Tech University, Ruston, Louisiana; 2Louisiana Tech Univeristy, Ruston,
Louisiana.
I6.21
Blue Emitting Phosphorescent Metal Complexes and Their Electroluminescence Properties. Rupasree Ragini Das, Seok Chang, Jong Hyoup Lee, Younghun Byun, Yi Yeol Lyu, Heekyung Kim, EunSil Han and Lyong Sun Pu; Flexible OLED Team, Samsung Advanced Institute of Technology, Yongin City, Kyongi-Do, South Korea.
I6.22
Induced Electronic States by Chemical Interaction at the Metal/Organic Interface. Tadanobu
Ikame, Kaname Kanai and
Kazuhiko Seki; Nagoya University, Nagoya, Japan.
I6.23
New Perfluorocyclobutane Based Hole Transporting Polymers for Polymer Light-Emitting
Diodes. Bogyu Lim, Doojin Vak, Jieun Ghim, Dong-Yu Kim and Jin-Taek Hwang; Dept. of Materials Science and Engineering, Gwangju Institute of Science and Technology (GIST), Gwangju, South Korea.
I6.24
The Effect of Atmospheric Doping on the Interfacial Electronic Structure of
Phthalocyanine Thin Films as Studied by UPS. Toshio Nishi1,
Kaname Kanai1, Yukio Ouchi1, Martin R. Willis2 and
Kazuhiko Seki3,4; 1Department of Chemistry, Graduate School
of Science, Nagoya University, Nagoya, Japan; 2School of Chemistry,
The University of Nottingham, Nottingham, United Kingdom; 3Research
Center for Materials Science, Nagoya University, Nagoya, Japan; 4Institute
for Advanced Research, Nagoya University, Nagoya, Japan.
I6.25
Spin Self-Assembled Layer-by-Layer Films for Electrochromic Devices. Yoon-Chae
Nah and Dong-Yu Kim; Dept. of Materials Science and Engineering, Gwangju
Institute of Science and Technology (GIST), Gwangju, South Korea.
I6.26
Organic Thin Film Transistors Obtained Using Atomic Layer Deposited Al2O3 as
High-k Dielectric. Sandro Ferrari1, Elisabetta Peron1,
Francesca Perissinotti1, Giovanna Scarel1, Dario Natali2,
Mario Caironi2, Luca Fumagalli2, Marco Sampietro2,
Alessandra Angiulli3 and Paolo Di Gianvincenzo3; 1Lab.
MDM - INFM, Agrate Brianza (Mi), Italy; 2Dipartimento di Elettronica
e Informazione, Politecnico di Milano, Milan, Italy; 3ISMAC-CNR, Milan,
Italy.
I6.27
Large-Area Wet Micro-Printing for Organic Device Patterning. Hongzheng Jin1,2 and James C. Sturm1,2; 1Department of Electrical Engineering, Princeton University, Princeton, New Jersey; 2Princeton Institute for the Science and Technology of Materials (PRISM), Princeton University, Princeton, New Jersey.
I6.28
Electronic Structure and Charge Transfer Dynamics of Alq3/Al and Alq3/LiF/Al
Interfaces. Stina K. M. Jonsson1, Michel P. de Jong2,
William R. Salaneck2 and Mats Fahlman1; 1Department
of Science and Technology, Linkoping University, Norrkoping, Sweden; 2Department
of Physics and Measurement Technology, Linkoping University, Linkoping, Sweden.
I6.29
New Functionalized Oligo-Acene Derivatives for Organic-Field Effect-Transistors. Matthias
Rehahn and Michael Roth; Macromolecular Chemistry, Darmstadt University
of Technology, Darmstadt, Germany.
I6.30
Optimization of Organic Solar Cells and Photodetectors Based on Pentacene Thin Films. Seunghyup Yoo, Benoit Domercq and Bernard Kippelen; School of Electrical and Computer Engineering, Georgia Institute of Technology, Atlanta, Georgia.
I6.31
Radiotracer Diffusion Measurements of Noble Metal Atoms in Semiconducting
Organic Films. Michael Scharnberg1, Joern Kanzow1,
Klaus Raetzke1, Stefan Meyer2, Jens Pflaum2,
Rainer Adelung1 and Franz Faupel1; 1Chair for
Multicomponent Materials, Christian-Albrechts-University of Kiel, Kiel, Germany; 23.
Physikalisches Institut, University of Stuttgart, Stuttgart, Germany.
I6.32
ABSTRACT WITHDRAWN
I6.33
Direct Tunneling Carrier Injection in Organic Diodes with an Ultrathin SiO2 Layer. Koshi Okamura1, Masakazu Nakamura2 and Kazuhiro Kudo2; 1Graduate School of Science and Technology, Chiba University, Chiba, Japan; 2Department of Electronics and Mechanical Engineering, Faculty of Engineering, Chiba University, Chiba, Japan.
I6.34
Spin-Conserving Carrier Recombination in Conjugated Polymers. Manfred J. Walter1, M. Reufer1, P. G. Lagoudakis1, U. Scherf2, J. M. Lupton1 and J. Feldmann1; 1Photonics and Optoelectronics Group, Physics Department and CeNS, Ludwig-Maximilians-Universitaet, Munich, Germany; 2FB Chemie, Universitaet Wuppertal, Wuppertal, Germany.
I6.35
Electronic Structure Calculation and Multiscale Simulation of Acene Functionalized
Polyhedral Oligomeric Silsesquioxanes (POSS) Molecular Crystals. Feng
Qi1, Murat Durandurdu1,2 and John Kieffer1; 1Materials
Science and Engineering, University of Michigan, Ann Arbor, Michigan; 2Department
of Physics, University of Texas at El Paso, El Paso, Texas.
I6.36
Trap-Assisted Hole Injection and Quantum Efficiency Enhancement in Poly(9,9' Dioctylfluorene-Co-Benzothiadiazole) Polymer Light-Emitting Diodes. Alexander Seeley1, Richard Friend1,2, Jeremy Burroughes2 and Ji-Seon Kim1; 1Physics, University of Cambridge, Cambridge, United Kingdom; 2CDT Ltd, Cambridge, United Kingdom.
I6.37
All-Polymer N-channel FET Fabricated by Drop-On-Demand Inkjet Printing Technique. Rohit Dikshit, Yi Su, Rajneek Khillan, Razat Nohria and Kody Varahramyan; Institute for Micromanufacturing, Louisiana Tech University, Ruston, Louisiana.
I6.38
Sub-Microsecond Molecular Thermometry Using Thermal Spin Flips. J. Stehr, J. M. Lupton, M. Reufer, Manfred J. Walter, G. Raschke, T. A. Klar and J. Feldmann; Photonics and Optoelectronics Group, Physics Department and CeNS, Ludwig-Maximilians-Universitaet, Munich, Germany.
I6.39
Degradation of Ruthenium(II) Tris-bipyridine Light Emitting Devices. Jason Slinker1, John DeFranco1, Jonathan Rivnay1, Jared Delcamp1, Samuel Flores-Torres2, Hector Abruna2, Len Soltzberg4 and George Malliaras1; 1Materials Science and Engineering, Cornell University, Ithaca, New York; 2Chemistry and Chemical Biology, Cornell University, Ithaca, New York; 3Department of Chemistry, Princeton University, Princeton, New Jersey; 4Department of Chemistry, Simmons College, Boston, Massachusetts.
I6.40
Efficient RGB and White OLEDs Using Platinum Dinuclear Complexes as Phosphorescent
Emitters. Biwu Ma1, Peter I. Djurovich2, Jian
Li2, Simona Garon2, Arnold Tamayo2 and Mark
E. Thompson2,1; 1Materials Science, USC, Los Angeles, California; 2Chemistry,
USC, Los Angeles, California.
I6.41
Correlating Structure Development to Performance Enhancement in Organic Semiconductor
Films. Dean Michael DeLongchamp1, Sharadha Sambasivan2, Daniel A. Fischer2 and Eric K. Lin1; 1Polymers Division, National Institute of Standards and Technology, Gaithersburg, Maryland; 2Materials Science and Engineering Laboratory, National Institute of Standards and Technology, Gaithesrburg, Maryland.
I6.42
An Efficient Polymeric Light-Emitting Device with Aluminum Cathode. X. Y. Deng and K. Y. Wong; Department of Physics, Chinese University of Hong Kong, Hong Kong, China.
I6.43
ABSTRACT WITHDRAWN
I6.44
ABSTRACT WITHDRAWN
I6.45
ABSTRACT WITHDRAWN
I6.46
Patterning Organics with Photolithography. John Andrew DeFranco1, Brad Schmidt2, Ricardo Ruiz1, Michal Lipson2 and George Malliaras1; 1Materials, Cornell University, Ithaca, New York; 2Electrical and Computer Engineering, Cornell University, Ithaca, New York.
I6.47
Creating Novel Organic Materials Through Self-Assembly. ThucQuyen Nguyen1, Colin Nuckolls2 and Qian Miao2; 1Chemistry and Biochemistry, University of California, Santa Barbara, Santa Barbara, California; 2Chemistry, Columbia University, New York, New York.
I6.48
Processable Dioxythiophene Based Polymers with Branched Substituents. Christophe R. G. Grenier, Benjamin D. Reeves, Avni A. Argun, Merve Ertas, Aubrey L. Dyer and John R. Reynolds; University of Florida, Gainesville, Florida.
I6.49
High-Mobility Polymer Thin-Film Transistors and Solvent Effects. Joonhyung Park, S. Young Park, M. Joon Kim, Tae Il Kim and Hong H. Lee; School of Chemical Engineering, Seoul National University, Seoul, South Korea.
I6.50
Photoresponse of Organic Field-Effect Transistors Based on Soluble Semiconductors
and Dielectrics. Nenad Marjanovic, Birendra Singh Thokchom, Serap Gunes and Serdar Niyazi Sariciftci; Physical Chemistry, Johannes Kepler University Linz, Austria, Linz Institute for Organic Solar Cells (LIOS), Linz, Austria.
I6.51
Polymer Gate Dielectric Formulation for Organic Thin-Film Transistors. S. Young Park, Joonhyung Park, M. Joon Kim, Tae Il Kim and Hong H. Lee; School of Chemical Engineering, Seoul National University, Seoul, South Korea.
I6.52
Direct Measurement of Surface Complex Loading and Surface Dipole, and Their
Effect on Simple Device Behavior. Jing Guo1, Norbert Koch2, Jeffrey Schwartz1 and Steven L. Bernasek1; 1Chemistry, Princeton University, Princeton, New Jersey; 2Physics, Humboldt University Berlin, Berlin, Germany.
I6.53
Feedback Enhancement in Photonic Crystal Lasers with an Organic Gain Material. Rik Harbers1,2, Nikolaj Moll2, Rainer F. Mahrt2, Daniel Erni1 and Werner Baechtold1; 1Swiss Federal Institute of Technology, Zurich, Switzerland; 2IBM Research, Ruschlikon, Switzerland.
SESSION I7: Thin Film Transistors
Chair: Ana Claudia Arias
Thursday Morning, March 31, 2005
Room 2001 (Moscone West)
8:30 AM I7.1
Effects of Polarized Organosilane Self-Assembled Monolayers on Organic Single-Crystal Field-Effect Transistors. Jun Takeya1, T. Nishikawa2,3, T. Takenobu2, S. Kobayashi2, T. Mitani3 and Y. Iwasa2; 1Materials Science Research Laboratory, CRIEPI, Komae, Japan; 2Institute for Material Reasearch, Tohoku University, Sendai, Japan; 3JAIST, Tatsunokuchi, Japan.
8:45 AM I7.2
Charge Carrier Mobility Measurements in Tetracene Single Crystals. Jens
Pflaum, Jens Niemax and Ashutosh K. Tripathi; 3. Physics Department, University
of Stuttgart, Stuttgart, Germany.
9:00 AM I7.3
Organic Based Magnetic Thin Films by Low Temperature
CVD. R. Shima Edelstein1, Jung-Woo
Yoo1,
N. P. Raju1, J. D. Bergeson1, K. I. Pokhodnya1,2,
Joel S. Miller2, and A. J. Epstein1; 1Department
of Physics and Department of Chemistry, Ohio State University,
Columbus, Ohio; 2Department of Chemistry, University
of Utah, Salt Lake City, Utah..
9:15 AM I7.4
A New Architecture for Nanoscale Field-Effect Transistors. Daniel Fine,
Liang Wang and Ananth Dodabalapur; The University of Texas at Austin, Austin,
Texas.
9:30 AM *I7.5
π-Stacked N-Channel Organic Semiconductors with High Electron Mobilities in Organic Thin Film Transistors. C. Daniel Frisbie, Chem Eng and Mat Sci, University of Minnesota, Minneapolis, Minnesota.
10:00 AM BREAK
10:15 AM I7.6
Transport in Polycrystalline Polymer TFTs. Bob Street, John Northrup
and Alberto Salleo; Palo Alto Research Center, Palo Alto, California.
10:30 AM *I7.7
Recent Advances in Organic Field Effect Transistors. Domenico Cupertino, Simon Ogier, Veres Janos, Stephen Leeming and Giles Lloyd; Research, Avecia, Manchester, United Kingdom.
11:00 AM I7.8
Fabrication of Organic Electronic Devices Using Inorganic-Organic Hybrid Materials
as Gate Dielectrics. Ruth Houbertz1, Gerhard Domann1, Angelika Schmitt1, Michael Popall1, Barbara Stadlober2, Anja Haase2 and Ursula Haas2; 1Hybrid Polymers for Microsystems, Fraunhofer-ISC, Wuerzburg, Germany; 2Joanneum Research Forschungsgesellschaft, Weiz, Austria.
11:15 AM I7.9
Morphological Effects on Charge Transport in Conjugated Polymers. R. Joseph Kline1, Michael D. McGehee1 and Michael F. Toney2; 1Material Science and Engineering, Stanford University, Stanford, California; 2Stanford Synchrotron Radiation Laboratory, Menlo Park, California.
11:30 AM *I7.10
Stable Semiconducting Thiophene Polymers and Their Field Effect Transistor
Properties. Iain McCulloch1, Clare Bailey1, Mark Giles1, Martin Heeney1, Maxim Shkunov1, David Sparrowe1, Masayoshi Suzuki2 and Robert Wagner3; 1Merck Chemicals, Southampton, United Kingdom; 2Merck Japan, Atsugi, Japan; 3Merck KGaA, Darmstadt, Germany.
SESSION I8: Morphology, Interfaces and Devices
Chair: John Emerson
Thursday Afternoon, March 31, 2005
Room 2001 (Moscone West)
1:30 PM *I8.1
N- and P-Type Electrical Doping in Organic Thin Films. Antoine Kahn,
Princeton University, Princeton, New Jersey.
2:00 PM I8.2
Charge Carrier Transport Studies of Organic Single Crystal Field-Effect Transistors
Using Nondestructive, Reversible Methods. Mang-mang (Mike) Ling, Alejandro L. Briseno and Zhenan Bao; Chemical Engineering, Stanford University, Stanford, California.
2:15 PM I8.3
Interfacial Effects in Polymeric Thin Film Transistors Studied Using Laminated
Films. Michael Chabinyc1, Alberto Salleo1, Yiliang Wu2, Ping Liu2, Beng Ong2, Martin Heeney3 and Iain McCulloch3; 1Electronic Materials Laboratory, PARC, Palo Alto, California; 2Xerox Research Centre of Canada, Mississuaga, Ontario, Canada; 3Merck Chemicals, Southampton, United Kingdom.
2:30 PM I8.4
Investigation of the Insulator-Metal Transition in Poly(3-hexylthiophene)
Induced in Field-Effect Transistor. Daniel Moses,
Anoop Singh, Guangming Wang and Alan J. Heeger; Physics, University of California,
Santa Barbara, California.
2:45 PM I8.5
Mechanical and Charge Transport Properties of Self Assembled Organic Monolayers. Imma Ratera1, Jeong Y. Park1, Jeff Neaton2, Gerard Smidth1, Alexander Liddle1, D. Frank Ogletree1 and Miquel Salmeron1; 1Materials and Surface Science, Lawrence Berkeley National Laboratory, Berkeley, California; 2University of California, Berkeley, Berkeley, California.
3:00 PM BREAK
3:15 PM I8.6
Interface and Gate Bias Dependent Response of Sensing Organic Thin-Film Transistors. Maria Cristina Tanese1, Daniel Fine2, Ananth Dodabalapur2 and Luisa Torsi1; 1Chemistry, Universita di Bari, Bari, Italy; 2PRC/MER, University of Texas at Austin, Austin, Texas.
3:30 PM I8.7
Investigation of Annealing Effects and Film Thickness Dependence of Polymer
Solar Cells. Gang Li, Vishal Shrotriya and Yang Yang; Materials Science
and Engineering, Unicersity of California at Los Angeles, Los Angeles, California.
3:45 PM I8.8
High
Mobility Pentacene Organic Field Effect Transistors Based on
a Ferroelectric Polymer Gate Dielectric. Barbara Stadlober1,
Martin Zirkl1, Michael Beutl1, Hannes
Maresch1, Georg Jakopic1, Guenther Leising1,
Simona Bauer-Gogonea2 and Siegfried Bauer2; 1Institute
of Nanostructured Materials and Photonics, Joanneum Research,
Weiz, Austria; 2Institute of Soft Matter Physics,
Johannes Kepler University, Linz, Austria.
4:00
PM I8.9
Patterning
Nanoscale Phase Separation in Conjugated Polymer Blends with
Dip-Pen Nanolithography. David Coffey1 and
David Ginger2; 1Physics, University
of Washington, Seattle, Washington; 2Chemistry,
University of Washington, Seattle, Washington.
4:15 PM I8.10
Micro-Structural Effects on the Optical and Charge Transport Properties in Poly (9,9-Dioctylfluorene-co-Benzothiadiazole). Carrie L. Donley1, Jana Zaumseil1, Jens W. Andreasen2, Martin M. Nielsen2, Ji-Seon Kim1 and Richard H. Friend1; 1Department of Physics, University of Cambridge, Cambridge, United Kingdom; 2Risoe National Laboratory, Roskilde, Denmark.
4:30 PM I8.11
Effects of Various Types of Doping on the Electronic Structure of Organic Interfaces. Kazuhiko Seki1,2, Toshio Nishi3, Senku Tanaka3, Tadanobu Ikame3, Hisao Ishii4 and Kaname Kanai3; 1Research Center for Materials Science, Nagoya University, Nagoya, Japan; 2Institute for Advanced Research, Nagoya University, Nagoya; 3Dept. Chemistry, Graduate School of Science, Nagoya University, Nagoya, Japan; 4Research Institute of Electro Communication, Tohoku University, Sendai, Japan.
4:45 PM I8.12
Surface Structure of Conjugated Polymer Thin Films: The
Measurement of Surface Dichroic Ratios by NEXAFS and Their
Correlation with Field-Effect Conduction
Properties. Peter Ho1, Lay-Lay Chua1,2, Xingyu
Gao1,3, Mandal Dipankar1,
Dongchen Qi1,3, Swee-Ching Tan1,3,
Andrew
Wee1,3, Jui-Fen Chang2 and Richard Friend2; 1Dept
of Physics, National University of Singapore, Singapore, Singapore; 2Cavendish
Laboratory, University of Cambridge, Cambridge, United Kingdom; 3Singapore
Synchrotron Light Source, Singapore, Singapore.
SESSION I9: Poster Session: Organic Based Materials and Devices
Chairs: Ana Claudia Arias, Lukas Burgi, John Emerson and Nir Tessler
Thursday Evening, March 31, 2005
8:00 PM
Salons 8-15 (Marriott)
I9.1
Polymer FET with Enhanced Performance by Inkjet Printing Modified PEDOT-PSS as S/D Electrodes. Fengliang
Xue, Zhengchun Liu, Yi Su and Kody Varahramyan; Institute for Micromanufacturing,
Louisiana Tech University, Ruston, Louisiana.
I9.2
Dielectric Constant and Breakdown Field Studies of Electrostatic Self-Assembled (ESA) Materials. Ramazan Asmatulu,
Brian Geist, William B. Spillman and Richard O. Claus; FEORC, Virginia Tech,
Blacksburg, Virginia.
I9.3
Dual-Gate SiO2/P3HT/SiNx OTFT. Flora Li,
Sarswati Koul, Yuri Vygranenko, Peyman Servati and Arokia Nathan; University
of Waterloo, Waterloo, Ontario, Canada.
I9.4
Fabrication of RR-P3HT-Based TFTs Using Low-Temperature PECVD Silicon Nitride. Sarswati Koul,
Yuriy Vygranenko, Andrei Sazonov, Flora Li and Arokia Nathan; Electrical and
Computer Eng., Waterloo University, Waterloo, Ontario, Canada.
I9.5
The Effect of Gate Dielectric Surface Energy on Pentacene Morphology and OFET
Characteristics. Sang Yoon Yang, Kwonwoo Shin and Chan Eon Park; Polymer
Research Institute, Chemical Engineering, Pohang University of Science and Technology,
Pohang, Gyungbuk, South Korea.
I9.6
Dielectrics for Organic Transistors with Low Threshold Voltage. Jochen
Brill, Silke Goettling and Eduardo Margallo; Chair of Display Technology,
University of Stuttgart, Stuttgart, Germany.
I9.7
Analysis of Current-Voltage Characteristics of Dual-Gate Organic Thin Film
Transistors. R. Coehoorn, G. H. Gelinck and E. van Veenendaal; Philips
Research Laboratories, Eindhoven, Netherlands.
I9.8
High Performance and High Stability of Lead Phthalocyanine Thin-Film Transistors
in Ambient Air. Hiroaki Tachibana1, Hiromi Iwazumi1 and
Yoshinori Tokura1,2; 1Correlated Electron Research Center
(CERC), AIST, Tsukuba, Japan; 2University of Tokyo, Tokyo, Japan.
I9.9
Flexible Pentacene/PMMA Thin-Film Transistors Fabricated on Aluminium Foil
Substrates. Joaquim Puigdollers, Cristobal Voz, Isidro Martin, Albert
Orpella, Michael Vetter and Ramon Alcubilla; Enginyeria Electronica, Universitat
Politecnica Catalunya, Barcelona, Spain.
I9.10
Evaluation of the Self-Assembly and Transistor Performance of a Soluble Oligothiophene Series. Amanda R. Murphy1,
Jean M. J. Frechet1, Paul C. Chang2, Vivek Subramanian2 and
Dean M. DeLongchamp3; 1Chemistry, UC Berkeley, Berkeley,
California; 2Electrical Engineering and Computer Science, UC Berkeley,
Berkeley, California; 3Polymer
Division, National Institute of Standards & Technology, Gaithersburg, Maryland.
I9.11
Room Temperature Deposition of TiO2 Thin Films on PET(poly-ethyleneterephthalate)
by Using UV-Enhanced Atomic Layer Deposition. Moon C. Kang, Byoung
H. Lee and Myung Mo Sung; Chemistry, Kookmin University, Seoul, South Korea.
I9.12
Effective Integration of Organic Light-Emitting Diode and Organic Transistor. Chih Wei Chu,
Material Science and Engineering, University of California, Los Angeles, Los
Angeles, California.
I9.13
Optical Interference as a Tool to Describe the Spectral Changes Created by a Tunable and Controllable Excitons Confinement. Fery Christophe1,
Drazic Valter1, Geffroy Bernard2, Denis Christine2 and
Maisse Pascal2; 1Thomson
R&D, Cesson-Sevigne, France; 2Laboratoire Cellules et Composants,
CEA Saclay, Gif sur Yvette, France.
I9.14
Highly Transparent and Conductive CdO Thin Films as Anodes for Organic Light-Emitting Diodes. Film Microstructure Morphology and Effects on Performance. Yu Yang,
Qinglan Huang, Andrew W. Metz, Shu Jin and Tobin J. Marks; Chemistry, Northwestern
University, Evanston, Illinois.
I9.15
Efficient and Stable Organic Light-Emitting Diodes Using Carbon Nanotube-Surfactant
Layer at Metal-Organic Interface. Sumit Chaudhary1, Krishna
Veer Singh2 and Mihrimah Ozkan1,2; 1Electrical
Engineering, UC Riverside, Riverside, California; 2Chemical and Environmenal
Engineering, UC Riverside, Riverside, California.
I9.16
Single-Walled Carbon Nanotube Composites as Hole Injection Layer for Organic
Light Emitting Diode Applications. Ching Ching Oey1,
Aleksandra B. Djurisic2, Chung Yin Kwong1, Chi Hang Cheung2,
Wai Kin Chan3 and Po Ching Chui1; 1Dept. of
Electrical and Electronic Engineering, The University of Hong Kong, Pokfulam
Road, Hong Kong; 2Department of Physics, The University of Hong Kong,
Pokfulam Road, Hong Kong; 3Department of Chemistry, The University
of Hong Kong, Pokfulam Road, Hong Kong.
I9.17
Syntheses of White-Light-Emitting Pai-Conjugated Polymers and Their Application
to OLEDs. Junji Kido, Masataka Iwasaki, Takayuki Ito and Hsing-Lin
Lan; Polymer Science and Engineering, Yamagata University, Yonezawa, Yamagata,
Japan.
I9.18
Spectroscopic Ellipsometry of the Optical Functions of Some Widely Used Organic
Light Emitting Diodes (OLEDs) Materials. Zhengtong
Liu1, Ching Ching Oey2, Aleksandra B. Djurisic1,
Chung Yin Kwong2, Chi Hang Cheung1, Wai Kin Chan3 and
Po Ching Chui2; 1Department of Physics, The University
of Hong Kong, Pokfulam Road, Hong Kong; 2Dept. of Electrical and Electronic
Engineering, The University of Hong Kong, Pokfulam Road, Hong Kong; 3Department
of Chemistry, The University of Hong Kong, Pokfulam Road, Hong Kong.
I9.19
Synthesis of Fluorene-Containing Arylamine and its Application to OLEDs. Junji
Kido, Jiro Asaka, Takashi Yamamoto, Kinh Luan Thanh Dao, Takayuki Ito
and Hsing-Lin Lan; Polymer Science and Engineering, Yamagata University, Yonezawa,
Yamagata, Japan.
I9.20
Tuning the Emission Wavelength of Heteroleptic Iridium Complexes by Varying the pKa of the Ancillary Ligands. Tae-Hyuk Kwon1,
Myoung Ki Kim1, Su Jin Park2, Dong Hyun Jung2,
Seok Jong Lee2 and Jong-In Hong1; 1School of
Chemistry, Seoul National University, Seoul, South Korea; 2Coperate
R&D Center, Samsung SDI, Seoul, South Korea.
I9.21
Photoelectron Spectroscopy of Organic Polymer/Metal Interfaces for OLEDs. Korhan
Demirkan, Anoop Mathew, Subramanian Vaidyanathan, Mary Galvin and Robert
L. Opila; Department of Materials Science & Engineering, University of Delaware,
Newark, Delaware.
I9.22
Modified HOST Materials Having Higher Energy Band Gap in Organic Light Emitting
Diodes (OLEDs): Synthesis of CBP Derivatives Through the Buchwald Reaction. Tae-Hyuk
Kwon1, Hyo Soon Cho1, Su-Youn Choi1, Myoung
Ki Kim1, Kwan Hee Lee2, Su Jin Park2 and
Jong-In Hong1; 1School of Chemistry, Seoul National University,
Seoul, South Korea; 2Coperate R&D Center, Samsung SDI, Seoul, South
Korea.
I9.23
Inorganic Nanowire Light-Emitting Diodes in Organic Films. Rolf Koenenkamp,
Robert Word and Christoph Schlegel; Physics, Portland State University, Portland,
Oregon.
I9.24
Effects of Tertiary-Butyl Transport and Luminescence Properties of Anthracence-Based
Blue Host Materials for OLEDs. S. K. So1, S. C. Tse1,
M. Y. Yeung2, C. F. Lo2, S. W. Wen3 and C. H.
Chen3; 1Department of Physics and Centre for Advanced Luminescence
Materials, Hong Kong Baptist University, Hong Kong, Hong Kong; 2Department
of Physics, The Chinese University of Hong Kong, Hong Kong, Hong Kong; 3Department
of Applied Chemistry and Microelectronics & Information Systems Research Center,
National Chiao Tung University, Hsinchu, Taiwan.
I9.25
ABSTRACT WITHDRAWN
I9.26
High Efficiency Homojunction OLEDs Using Aromatic Ring-Oxadiazole-Triphenylamine
Based Compounds. K. L. Tong1, S. K. So1, Tik
H. Lee2, L. M. Leung2, M. Y. Yeung3 and C. F.
Lo3; 1Department of Physics and Centre for Advanced Luminescence
Materials, Hong Kong Baptist University, Hong Kong, Hong Kong; 2Department
of Chemistry, Hong Kong Baptist University, Hong Kong, Hong Kong; 3Department
of Physics, The Chinese University of Hong Kong, Hong Kong, Hong Kong.
I9.27
High-Efficiency OLEDs Using Hole-Injection Layer Consisting of Arylamine Doped
with TCNQ Derivative. Kinh Luan Thanh Dao, Hsing-Lin Lan and Junji
Kido; Polymer Science and Engineering, Yamagata University, Yonezawa, Yamagata,
Japan.
I9.28
Transverse Electrical Transport in Pentacene Photodiodes. Cristobal
Voz1, Joaquim Puigdollers1, Isidro Martin1,
Albert Orpella1, Michael Vetter1, Francisco Fabregat2,
Germa Garcia2, Juan Bisquert2 and Ramon Alcubilla1; 1Enginyeria
Electronica, Universitat Politecnica de Catalunya, Barcelona, Spain; 2Ciencies
Experimentals, Universitat Jaume I, Castello, Spain.
I9.29
Photovoltaic Cells Based on Multilayers of Ionic Poly(p-phenylene ethynylene)s and a Water-Soluble Fullerene Derivative. Jeremiah Mwaura,
Mauricio Pinto, Nisha Ananthakrishnan, David Witker, Kirk S. Schanze and John
R. Reynolds; Chemistry, Center for Macromolecular Science and Engineering, University
of Florida, Gainesville, Florida.
I9.30
Electrical Properties of ITO/CdSe/P3OT/Au Heterojunction. Oscar Hilario
Salinas1, Cecilia Lopez-Mata1, Hailin Hu1,
Ma. Elena Nicho-Diaz2 and Oscar Gomez-Daza1; 1Solar
Materials, CIE-UNAM, Temixco, Morelos, Mexico; 2CIICAp - UAEM, Cuernavaca,
Morelos, Mexico.
I9.31
Photovoltaic Devices Based on a Donor/Sensitizer/Acceptor Architecture Utilizing Phthalocyanine Dye and Layer-By-Layer Electrostatic Deposition. Susan E. Bailey,
Kristin L. Mutolo and Mark E. Thompson; Department of Chemistry, University of
Southern California, Los Angeles, California.
I9.32
Interface and Bulk Contributions of Metal/Polyaniline/Metal Structures. Rodrigo Fernando Bianchi1,2,
Helder Nunes da Cunha3, Guilherme Fontes Leal Ferreira1 and
Joao Mariz Guimaraes Neto3; 1Departamento
de Fisica e Ciencia dos Materiais, Universidade of Sao Paulo, Sao Carlos, Sao
Paulo, Brazil; 2Departamento de Engenharia de Sistemas Eletronicos,
Escola Politecnica, Sao Paulo, Sao Paulo, Brazil; 3Departamento de
Fisica, Universidade Federal do Piaui, Teresina, Piaui, Brazil.
I9.33
Evaluation of Resistivities and Polaron Delocalization Lengths in Highly Conjugated (Porphinato)zinc(II) Oligomers. Paul R. Frail1,2,
Kimihiro Susumu1, Jennie Fong4, Paul J. Angiolillo3,1,
J. M. Kikkawa2 and Michael J. Therien1; 1Chemistry,
University of Pennsylvania, Philadelphia, Pennsylvania; 2Physics,
University of Pennsylvania, Philadelphia, Pennsylvania; 3Physics,
Saint Joseph's University, Philadelphia, Pennsylvania; 4Chemistry,
University of San Diego, San Diego, California.
I9.34
Programmable Conductance Switching and Negative Differential Resistance in Nanoscale Organic Films. Troy Graves-Abe1,2 and
J. C. Sturm1,2; 1PRISM, Princeton University, Princeton,
New Jersey; 2Department of Electrical Engineering, Princeton University,
Princeton, New Jersey.
I9.35
Memory Effect in the Current-Voltage Characteristics of Diodes Based on PEDOT:PSS. Zhengchun
Liu, Fengliang Xue, Yi Su and Kody Varahramyan; Institute for Micromanufacturing,
Louisiana Tech University, Ruston, Louisiana.
I9.36
Charge Mobility Engineering of Organic Co-Host Using Triphenylamine- and Rubrene-Mixed
Alloy. H. H. Fong1,2 and
S. K. So1,2; 1Physics, Hong Kong Baptist University, Hong
Kong, Hong Kong; 2Centre for Advanced Luminescence Materials, Hong
Kong Baptist University, Hong Kong, Hong Kong.
I9.37
Investigation of Bipolar Carrier Transport Properties in Pentacene by Admittance Spectroscopy. Jin
An1,2, Stephen S. W. Tsang1,2 and J. B. Xu1,2; 1Dept.
of Electronic Engineering, Chinese University of Hong Kong, Hong Kong, Hong Kong; 2Materials
Science and Technology Research Center, Chinese University of Hong Kong, Hong
Kong, Hong Kong.
I9.38
Solvent Processable Conducting Block Copolymers Based On Poly(3,4-ethylenedioxythiophene). Shawn Sapp,
Silvia Luebben, Brian Elliott, Emily Chang, Raechelle D'Sa and Wallace Ellis;
TDA Research, Inc., Wheat Ridge, Colorado.
I9.39
Bis-Heterocycle-Phenylene Based Polymers for Optoelectronic Devices. Emilie Galand,
Barry C. Thompson and John R. Reynolds; Department of Chemistry, Center for Macromolecular
Science and Engineering and the George and Josephine Butler Polymer Research
Laboratory, University of Florida, Gainesville, Florida.
I9.40
Formation of Self-Assembled Multi-Layers by Using Molecular Layer Deposition. Byoung
H. Lee, Moon C. Kang and Myung Mo Sung; Chemistry, Kookmin University, Seoul,
South Korea.
I9.41
New Conjugated Polymers Derived from Carbazole as Thermoelectric Materials. Isabelle Levesque1,2,
Xing Gao1, Dennis D. Klug1, Christopher I. Ratcliffe1,
John Tse1,4, Mario Leclerc2, Alboni Paola3 and
Terry M. Tritt3; 1Steacie Institute for Molecular Sciences,
National Research Council of Canada, Ottawa, Ontario, Canada; 2Chemistry,
Universite Laval, Quebec, Quebec, Canada; 3Physics and Astronomy,
Clemson University, Clemson, South Carolina; 4Physics, University
of Saskatchewan, Saskatoon, Saskatchewan, Canada.
I9.42
Water-Soluble Paracyclophane Chromophores with Large Two-Photon Action Cross Sections. Han Young Woo1,2,
Alexander Mikhailovsky2, Dmitry Korystov2 and Guillermo
C. Bazan1,2; 1MC-CAM, University of California, Santa Barbara,
California; 2Chemistry, University of California, Santa Barbara, California.
I9.43
Thin Films of Phthalocyanine/Perylene Tetracarboxyldiimide Blends for Organic
Solar Cell Devices. Alexandru Vlad1, Pascal Viville2,
Dana Serban1, Vinciane De Cupere3, Gael Zucchi3,
Vincent Bayot1, Roberto Lazzaroni2 and Yves Geerts3; 1DICE,
Universite catholique de Louvain, Louvain-la-Neuve, Belgium; 2SCMN,
Universite de Mons-Hainault, Mons, Belgium; 3LCP, Universite Libre
de Bruxelles, Bruxelles, Belgium.
I9.44
Supramolecular Organization of Thiophene-Based Oligomers: From Solution to
Solid-State Nanostructures. Philippe Leclere1,2,
Mathieu Surin1, Gwennaelle Derue1, W. James Feast3,
Pascal Jonkheijm2, Albertus P. H. J. Schenning2, E. W.
(Bert) Meijer2 and Roberto Lazzaroni1; 1University
of Mons-Hainaut, Mons, Belgium; 2Eindhoven University of Technology,
Eindhoven, Netherlands; 3IRC, Durham, United Kingdom.
I9.45
Synthesis and Properties of Polycyclosilanes. Christoph Marschner,
Andreas Wallner and Judith Baumgartner; Institut fuer Anorganische Chemie, Technische
Universitaet Graz, Graz, Austria.
SESSION I10: LEDs
Chair: Ghassan Jabbour
Friday Morning, April 1, 2005
Room 2001 (Moscone West)
8:30 AM I10.1
Organic Solid Solution: Formation and Application in Organic Light Emitting
Diodes. Yang Yang and Yan Shao; Materials Sci.&Eng., University of
California,Los Angeles, Los Angeles, California.
8:45 AM *I10.2
Light Emitting Devices from Ionic Transition Metal Complexes. George Malliaras,
Materials Science and Engineering Department, Cornell University, Ithaca, New
York.
9:15 AM I10.3
Planar Polymer Light-Emitting Devices and Photovoltaic Cells with Multiple
p-n Junctions. Corey Tracy and Jun Gao; Department of Physics, Queen's
University, Kingston, Ontario, Canada.
9:30 AM I10.4
High Efficiency Blue-Emitting OLED Using Wide-Gap Arylamines. Junji
Kido1,2, Daisaku Tanaka2, Yuya Agata2 and
Hitoshi Shimizu2; 1Polymer Science and Engineering, Yamagata
University, Yonezawa, Yamagata, Japan; 2Optoelectronic Industry and
Technology Development Association, Bunkyo-ku, Tokyo, Japan.
9:45 AM I10.5
OLED Degradation Described by Using a One-Free-Parameter Time-Dependent Diffusion
Model. Benoit Racine,
Salvatore Cina, Armand Bettinelli and Henri Doyeux; Thomson, Cesson Cevigne,
France.
10:00 AM I10.6
Molecular-Scale Electronic Processes Across Organic-Organic Intra- and Inter-Chain
Semiconductor Interfaces. Linus P. H. Lu,
Paiboon Sreearunothai, Alexander Seeley, Richard H. Friend and Ji-Seon Kim; Physics,
University of Cambridge, CAMBRIDGE, United Kingdom.
10:15 AM BREAK
10:30 AM I10.7
Light-Emitting Liquid Crystals: From Red, Green and Blue Light-Emitting Materials to Full Color and Polarised OLEDs. Adam
E. A. Contoret1, Simon R. Farrar1, W. Chung Tsoi1,
Kai L. Woon1, Mary O'Neill1, Matthew P. Aldred2,
Panos Vlachos2 and Stephen M. Kelly2; 1Department
of Physics, University of Hull, Hull, United Kingdom; 2Department
of Chemistry, University of Hull, Hull, United Kingdom.
10:45 AM *I10.8
New Materials for High Performance Organic Light Emitting Diodes for Displays and Lighting. Samson A. Jenekhe1,2,
Abhishek P. Kulkarni1, Tae Woo Kwon2, Maksudul M. Alam1,
Christopher J. Tonzola2, Yan Zhu1 and Angela P. Gifford2; 1Chemical
Engineering, University of Washington, Seattle, Washington; 2Chemistry,
University of Washington, Seattle, Washington.
11:15 AM I10.9
Highly Efficient Red, Green, Blue and White Emission from Small-Molecule Organic Light Emitting Diodes (OLEDs). Karsten Walzer,
Qiang Huang, Gufeng He, Rico Meerheim, Gregor Schwartz, Karsten Fehse, Martin
Pfeiffer and Karl Leo; Institute of Applied Photophysics, Dresden University
of Technology, Dresden, Germany.
11:30 AM I10.10
Fluorenone Incorporation Effect on Optoelectronic Properties of Blue Light-Emitting Polymers and Devices. Craig Murphy,
Ian Rees, Nathan Phillips, Mark Leadbeater, Ilaria Grizzi and Carl Towns; CDT
Ltd., Cambourne, United Kingdom.
11:45 AM I10.11
Efficient, Blue-Green Electrophosphorescence Using Fluorine-Free Organic Small
Molecules - A New Route to Saturated Blue Phosphorescence. Russell J.
Holmes1,2,
Stephen R. Forrest1,2, Tissa Sajoto3, Arnold Tamayo3,
Xiaofan Ren3 and Mark E. Thompson3; 1Department
of Electrical Engineering, Princeton University, Princeton, New Jersey; 2Princeton
Institute for the Science and Technology of Materials (PRISM), Princeton University,
Princeton, New Jersey; 3Department of Chemistry, University of Southern
California, Los Angeles, California.
SESSION I11: Display and RFID
Chair: Devin MacKenzie
Friday Afternoon, April 1, 2005
Room 2001 (Moscone West)
1:30 PM *I11.1
Inkjet Technology for Printed Organic Electronics. Christopher Newsome,
Cambridge Research Laboratory of Epson, Cambridge, United Kingdom.
2:00 PM I11.2
A Rapid Evaluation Method to Assess Organic Film Uniformity
in Roll-to-Roll Manufactured OLEDs. Svetlana Rogojevic,
Tami Faircloth, Maria M. Otero, James C. Grande, Robert W.
Tait,
Joseph Shiang, and Anil R. Duggal; GE Global Research Center,
Niskayuna, New York.
2:15 PM I11.3
Printable Optoelectronics: Understanding Light-Emitting
Electrochemical Cells on Flexible Substrates. Melissa Ann Kreger1,
Matt Wilkinson1, Eric Jones1, Janie
Jo Breeden1 and Sue Carter2; 1Add-Vision,
Inc., Scotts Valley, California; 2Physics, University
of California Santa Cruz, Santa Cruz, California.
2:30 PM BREAK
3:00 PM I11.4
Integrated Organic Semiconductor Optics for Miniaturised Analysis. Oliver
Hofmann3, Paul Miller1, Xuhua Wang3, Jingsong
Huang2, Donal D. C. Bradley2,3, Andrew J. de Mello1,3 and John
C. de Mello1,3; 1Department of Chemistry, Imperial
College London, South Kensington, United Kingdom; 2Department of Physics,
Imperial College London, South Kensington, United Kingdom; 3Molecular
Vision Ltd, London, United Kingdom.
3:15 PM *I11.5
Polymer Based Rectifiers and Integrated Circuits for Printable RFID Tags. Dietmar Zipperer,
Wolfgang Clemens, Andreas Ullmann, Markus Boehm and Walter Fix; PolyIC GmbH & Co.
KG, Erlangen, Germany.
3:45 PM I11.6
13.56 MHz Organic Transistor Based Rectifier Circuits for RFID Tags. Robert
Rotzoll2, Siddharth Mohapatra1, Viorel Olario2,
Robert Wenz1, Michelle Grigas1, Oleg Shchekin1,3,
Klaus Dimmler2 and Ananth Dodabalapur1,3; 1Organic
ID, Austin, Texas; 2Organic ID, Colorado Springs, Colorado; 3The
University of Texas at Austin, Austin, Texas.
4:00 PM I11.7
High Performance Organic Schottky Diode. Soeren Steudel1,2,
Martijn Lenes1, Carsten Deibel1, Stijn De Vusser1,2,
Jan Genoe1 and Paul Heremans1; 1Polymer and
Molecular Electronics, IMEC, Leuven, Belgium; 2E.E.Dept, K.U.Leuven,
Leuven, Belgium.
4:15 PM I11.8
Fabrication of OLED Displays on a Dome Using a Deformable Polymeric Hole Injecting
Anode. Rabin Bhattacharya1,
Sigurd Wagner1, Yeh-Jiun Tung2, Jim Esler2 and
Mike Hack2; 1Electrical Engineering, Princeton University,
Princeton, New Jersey; 2Universal Display Corporation, Ewing, New
Jersey.
4:30 PM I11.9
Ambipolar Organic Transistors and Complementary-Like Logic Circuits. Thomas Dimitrios Anthopoulos1,
Dago M. de Leeuw1, Sepas Setayesh1, Cristina Tanase2,
Jan C. Hummelen2 and Paul D. M. Blom2; 1Philips
Research Laboratories, Eindhoven, Netherlands; 2Molecular Electronics,
Materials Science Centre, University of Groningen, Groningen, Netherlands.
Symposium Organizers
A. C. Arias
Palo Alto Research Center
Electronic Materials Laboratory
3333 Coyote Hill Rd.
Palo Alto, CA 94304
Tel: 650-812-4199
Fax: 650-812-4105
ana.arias@parc.com |
N. Tessler
Technion
Electrical Engineering Dept.
Haifa 3200, Israel
Tel: 972-4-829-4719
Fax: 972-4-829-5757
nir@ee.technion.ac.il |
Lukas Burgi
Polymer Optoelectronics, CSEM, Badenerstrasse 569
CH-8048
Zurich, Switzerland
Tel: 41-1-497-1416
Fax: 41-1-497-1400
mrsburgi@csem.ch |
J. A. Emerson
Sandia National Laboratories
Organic Materials Dept.
MS 0958
Albuquerque, NM 87185-0958
Tel: 505-845-9747
Fax: 505-844-6584
jaemers@sandia.gov |
|
