Chairs
| D. Kumar |
|
North Carolina A&T State University |
| L. Kurihara |
|
Naval Research Laboratory |
| I. W. Boyd |
|
University College London |
| G. Duscher |
|
North Carolina State University |
| V. Harris |
|
Northeastern University |
Symposium Support
North Carolina A&T State University
U.S. Army Research Office
Proceedings
to be published online
(see ONLINE PUBLICATIONS at www.mrs.org)
as volume 877E
of the Materials Research Society
Symposium Proceedings Series.
This volume may be published in print format after the
meeting.
* Invited paper
SESSION S1/AA1: Joint Session: Self-Assembly of Magnetic Nanoparticles
Chairs: Dhananjay Kumar and Ralph Nuzzo
Tuesday Morning, March 29, 2005
Room 3005 (Moscone West)
NOTE EARLY START 8:00 AM *S1.1/AA1.1
Multi-Component Nanocrystal Assembly: A Route to Multi-Functional
Nanomaterials. Christopher Bruce Murray1 and Elena Shevchenko2,1; 1IBM, T. J. Watson Research Center, Yorktown Heights, New York; 2Department of Applied Physics and Applied Mathematics., Columbia University, New York, New York.
8:30 AM *S1.2/AA1.2
Arrays of Magnetic Nanowires via Block Copolymer Templates. Thomas P. Russell1 and M. Tuominen2; 1Polymer Science and Engineering, University of Massachusetts, Amherst, Massachusetts; 2Physics Department, University of Massachusetts, Amherst, Massachusetts.
9:00 AM S1.3/AA1.3
From Self-Ordering Towards Imprint Lithography: Large Scale Periodic Nickel and Permalloy Nanowire Arrays. Kornelius Nielsch1, Woo Lee1, Ralf B. Wehrspohn2, David Navas3, Manuel Vazquez3 and Ulrich Goesele1; 1Max Planck Institute of Microstructure Physics, Halle, Germany; 2Department of Physics, University of Paderborn, Paderborn, Germany; 3Instituto de Ciencia de Materiales de Madrid, CSIC, Madrid, Spain.
9:15 AM *S1.4/AA1.4
Polar-Surface Induced Novel Growth Configurations
of Piezoelectric Nanobelts. Zhong L. Wang, School of Materials Science and Engineering, Georgia Institute of Technology, Atlanta, Georgia.
9:45 AM S1.5/AA1.5
Magnetic Rings: Influence of Asymmetry. Vitali
Metlushko1, U. Welp2, V. Vlasko-Vlasov2,
G. Crabtree2, M. Grimsditch2, N.
Zaluzec2, B. Ilic3, J. Bekaert4,
V. V. Moshchalkov4, Y. Bruynseraede4,
Xiaobin Zhu5, P. Grutter6, A. Imre7,
G. Csaba7, G. H. Bernstein7 and
W. Porod7; 1ECE, UIC, Chicago,
Illinois; 2MSD, ANL, Argonne, Illinois; 3Cornell
University, Ithaca, New York; 4Katholieke
Universiteit Leuven, Leuven, Belgium; 5University
of Alberta, Edmonton, Alberta, Canada; 6McGill
University, Montreal, Quebec, Canada; 7University
of Notre Dame, Notre Dame, Indiana.
10:00 AM BREAK
SESSION S2: Self-Assembly of Magnetic Nanoparticles II
Chair: Dhananjay Kumar
Tuesday Morning, March 29, 2005
Room 3005 (Moscone West)
10:30 AM *S2.1
Magnetic Nanoparticles Made Using Block Copolymer Templates. Caroline
Ross, Filip Ilievski and Joy Cheng; Massachusetts Institute
of Technology, Cambridge, Massachusetts.
11:00 AM S2.2
Hcp-Co Nanoparticles and Crystallographic Alignment During Self-Assembly. Shihai Kan, Madhur Sachan and Sara Majetich; Physics, Carnegie Mellon University, Pittsburgh, Pennsylvania.
11:15 AM S2.3
Synthesis and Self-Assembled Ring Structures of Ni Nanocrystals. Guangjun Cheng1,2, Victor Puntes3,4 and Ting Guo2; 1Physics, NIST, Gaithersburg, Maryland; 2Chemistry, University of California, Davis, Davis, California; 3Chemistry, University of California, Berkeley, Berkeley, California; 4Physics, University of Barcelona, Barcelona, Spain.
11:30 AM S2.4
Self-Assembled Single Crystal Ferromagnetic α-Fe and
Co Nanowires Formed by Decomposition. Ladan Mohaddes-Ardabili1,2,
H. Zheng1,2, S. B. Ogale1,3, F. Zavaliche1,2,
T. Zhao1,2, S. Y. Yang1,2, D. G. Schlom4 and
R. Ramesh2; 1Materials Science and Engineering,
University of Maryland, College Park, Maryland; 2Materials
Science and Engineering, University of California, Berkeley,
California; 3Physics, University of Maryland, College
Park, Maryland; 4Materials Science and Engineering,
Pennsylvania State University, University Park, Pennsylvania.
11:45 AM S2.5
Field-Driven Self-Assembly of Magnetic Nanocolloidal Particles. Stefan Kooij, Aurelian Galca, Herbert Wormeester and Bene Poelsema; MESA+ Institute for Nanotechnology, Univ. Twente, Enschede, Netherlands.
SESSION S3: Nanoscale Charactrization and
Nanosystems
Chair: Jagdish Narayan
Tuesday Afternoon, March 29, 2005
Room 3005 (Moscone West)
1:30 PM *S3.1
Single Atom Imaging and Spectroscopy Through Aberration-Corrected
Scanning Transmission Electron Microscopy. Stephen J.
Pennycook, Matthew F. Chisholm, Andrew R. Lupini, Albina
Y. Borisevich, Maria Varela, Yiping Peng and Klaus Van Benthem;
Condensed Matter Science Division, Oak Ridge National Lab, Oak
Ridge, Tennessee.
2:00 PM *S3.2
Formation and Structural Evolution of Haxagonal Close-Packed
Ni Nanoparticles on (001) MgO by in situ Ultra-High Vacuum TEM.
Xiaoqing Pan1, Haiping Sun1, Wei
Tian1, Yanbin Chen1, Jinhai Yu2,
Chris Boothroyd2, Mark Yeadon2 and Roy
Clarke3; 1Materials Science and Engineering,
University of Michigan, Ann Arbor, Michigan; 2Institute
of Materials Research and Engineering, Singapore, Singapore;
3Department of Physics, University of Michigan, Ann
Arbor, Michigan.
2:30 PM S3.3
Characterizing the Microscopic Switching Behaviour of CoPt
Nanoparticles with High Resolution Magnetic X-ray Microscopy.
Peter Fischer1, Dong-Hyun Kim1,
Bosun Kang1, Elke Arenholz1 and Manfred
Albrecht2; 1CXRO, LBNL, Berkeley, California;
2Dept. Physics, U Konstanz, Konstanz, Germany.
2:45 PM S3.4
Controlled Synthesis and Characterization of CocoreAushell
Nanoparticles with Tailored Optical and Magnetic Properties.
Yuping Bao and Kannan M. Krishnan; Materials Science
& Engineering, University of Washington, Seattle, Washington.
3:00 PM BREAK
3:30 PM *S3.5
Magnetic Oxide Heterostructures for Interface Characterization.
Jochen Mannhart1, Andreas Schmehl1,
Stefan Thiel1, Akihito Sawa2 and John
R. Kirtley3; 1EKM; Institute of Physics,
University of Augsburg, Augsburg, Germany; 2Correlated
Electron Research Center (CERC), National Institute of Advanced
Science and Technology (AIST), Tsukuba, Japan; 3IBM
T.J. Watson Research Center, Yorktown Heights, New York.
4:00 PM *S3.6
Itinerant Ferromagnets: The Role of Disorder in the Suppression
of Long-Range Magnetic Order in Nanoscale Systems. Arthur
F. Hebard and Partha Mitra; Physics, University of Florida,
Gainesville, Florida.
4:30 PM S3.7
Sensitive Measurement of Parallel and Transverse Susceptibility
in Magnetic Nanoparticles by Alternating Gradient Magnetometry.
Mladen Barbic and Mary Brady; Physics and Astronomy, California
State University, Long Beach, Long Beach, California.
4:45 PM S3.8
Room-Temperature Ferromagneticsm in Nanostructured Co-Doped
ZnO. Ming Wei, N Khare, K. A. Yates, A. Venimadhav,
D. Zhi, R. E. Dunin-Borkowski, M. G. Blamire and J. L. MacManus-Driscoll;
Material Science and Metallurgy, University of Cambridge, Cambridge,
United Kingdom.
SESSION S4: Magnetic Nanoparticles and Properties I
Chair: A. Gupta
Wednesday Morning, March 30, 2005
Room 3005 (Moscone West)
NOTE EARLY START
8:00 AM *S4.1
Fabrication of Multifunctional Magnetic Nanoparticles. Jian-Ping
Wang; Department of Electrical and Computer Engineering,
University of Minnesota, Minneapolis, Minnesota.
8:30 AM *S4.2
X-doped Gd5Ge2Si2 Alloys
(X=Fe, Co, Mn, Cu, Ga) with Large Magnetocaloric Effects and
Little Hysteresis Due to the Formation a Nanocomposite Structure.
V. Provenzano, R. D. Shull and A. J. Shapiro; Magnetic
Materials Group, National Institute of Standards and Technology,
Gaithersburg, Maryland.
9:00 AM S4.3
Formation
of Monolayer Arrays of Magnetic Nanoparticles Using a Non-Aqueous
Langmuir Layer Method. Julie Gardener, Yuhang
Cheng, Stephen Garoff and Sara Majetich; Physics, Carnegie
Mellon
University, Pittsburgh, Pennsylvania.
9:15 AM S4.4
Synthesis of Highly Magnetic Iron Nanoparticles Using a
Beta-Diketone Surfactant. Dale L. Huber, Eugene
L. Venturini, James E. Martin and Paula P. Provencio; Sandia
National Laboratories, Albuquerque, New Mexico.
9:30 AM S4.5
Size Dependence of Phase Transformation in FePt Nanoparticles.
Sara Majetich and Yi Ding; Physics, Carnegie Mellon
University, Pittsburgh, Pennsylvania.
9:45 AM S4.6
Thermodynamic Properties of Antiferromagnetic Clusters.
Florentino Lopez-Urias1 and Gustavo M.
Pastor2;
1Advanced Material Department, Instituto Potosino
de Investigacion Cientifica y Tecnologica (IPICYT), San
Luis
Potosi, san Luis Potosi, Mexico; 2Laboratoire
de Physique Quantique, Centre National de la Recherche Scientifique,
Universite Paul Sabatier, 118 Route de Narbonne, 31062, Toulouse,
France.
10:00 AM BREAK
10:30 AM *S4.7
Formation of Epitaxial Nanodots/Nanocrystals by Domain
Matching Epitaxy. Jagdish Narayan, Materials Sc
& Eng, N C State University, Raleigh, North Carolina.
11:00 AM S4.8
Structural and Magnetic Properties of Iron Nanoparticles
Prepared by Chemical Vapor Synthesis. Thorsten Enz1,3,
Branko Stahl1,3, Sarbari Bhattacharya1,
Markus Winterer2, Gerhard Miehe1,
Keir Foster3, Claudia Fasel1 and
Horst Hahn1,3;
1Institute of Materials Science, Darmstadt University
of Technology, Darmstadt, Germany; 2School of
Engineering, Nanoparticle Process Technology, University
Duisburg-Essen,
Duisburg, Germany; 3Institute of Nanotechnology,
Forschungszentrum Karlsruhe, Karlsruhe, Germany.
11:15 AM S4.9
Monte Carlo Simulations of Thermodynamic Properties of
FePt Nanoparticles. Michael Mueller and Karsten
Albe; Institute of Materials Science, TU Darmstadt, Darmstadt,
Germany.
11:30 AM S4.10
Effects of Crystal Size in Nanoparticles of ABO3-Type
Magnetoelectric Spintronic Oxides. Shishir K. Ray1,
Mark Williamsen1, Vaijayanti R. Palkar2
and Prasenjit Guptasarma1; 1Department
of Physics, University of Wisconsin - Milwaukee, Milwaukee,
Wisconsin; 2Tata Institute of Fundamental Research,
Mumbai, India.
11:45 AM S4.11
Size Effects on the Electronic Structure of Magnetic Nanoparticles.
Keith Gilmore1, Damon Resnick1,
Adam McClure1, Yves U. Idzerda1,4, Michael
T. Klem2, Mark Allen2, Trevor Douglas2,
Mark Young3 and Joe Dvorak1,4; 1Department
of Physics, Montana State University, Bozeman, Montana; 2Department
of Chemistry, Montana State University, Bozeman, Montana;
3Department of Plant Sciences, Montana State University,
Bozeman, Montana; 4National Synchrotron Light Source,
Brookhaven National Lab, Upton, New York.
SESSION S5: Magnetic Nanoparticles and Properties II
Chair: Ian Boyd
Wednesday Afternoon, March 30, 2005
Room 3005 (Moscone West)
1:30 PM *S5.1
The Role of Surface Crystallography in the Magnetic Response
of NiZn Ferrite Nanoparticles. Michael Edward McHenry
and Rajasekaran Swaminathan; MSE, Carnegie Mellon University,
Pittsburgh, Pennsylvania.
2:00 PM S5.2
Defects in CoO Dominate Exchange Biasing in Co(core)/CoO(shell)
Nanoparticles. Joseph B. Tracy and Moungi G. Bawendi;
Chemistry, MIT, Cambridge, Massachusetts.
2:15 PM S5.3
Synthesis
and Magnetic Properties of MnP and MnAs Nanoparticles: Implications
for Spintronics. Kanchana Somaskandan1, Kristy
A. Gregg1, Georgy Tsoi3, Lowell E. Wenger3,
Gavin Lawes2 and Stephanie L. Brock1;
1Chemistry, Wayne State University, Detroit, Michigan;
2Physics, Wayne State University, Detroit, Michigan;
3Physics, University of Alabama, Birmingham, Birmingham,
Alabama.
2:30 PM S5.4
Magnetic Nanoparticle Aggregation States in Ag100-xFex
Cosputtered Granular Films Investigated by Magnetic and Magnetotransport
Measurements. Paolo Allia1, Federica Celegato1,
Marco Coisson2, Paola Tiberto2, Franco
Vinai2 and Federico Spizzo3; 1Physics,
Politecnico di Torino, Torino, Italy; 2IEN Galileo
Ferraris, Torino, Italy; 3Physics, University of
Ferrara, Ferrara, Italy.
2:45 PM S5.5
Synthesis and Magnetic Multiplex Separation of Superparamagnetic
Magnetite Nanocrystals. Cafer T. Yavuz1,
J. T. Mayo2, William Yu1, Joshua C. Falkner1
and Vicki L. Colvin1; 1Chemistry Dept.,
Rice University, Houston, Texas; 2Chemistry Dept.,
University of St. Thomas, Houston, Texas.
3:00 PM BREAK
3:30 PM *S5.6
Controlling Growth and Magnetism of Surface-Supported
Nanodot Assemblies by Interactions. J. Shen, Condensed
Matter Sciences Division, Oak Ridge National Laboratory, Tennessee
and Department of Physics and Astronomy, The University of Tennessee.
4:00 PM S5.7
Superparamagnetic Flexible Substrates Based on Submicron
Electrospun Estane Fibers Containing MnZnFe-Ni Nanoparticles.
Pankaj Gupta1, Ramazan Asmatulu2,
Rick Claus2 and Garth Wilkes1; 1Chemical
Engineering, Virginia Tech, Blacksburg, Virginia; 2Fiber
and Electro Optics Research Center, Virginia Tech, Blacksburg,
Virginia.
4:15 PM S5.8
Oxide Shell Formation in CoNi/Oxide Core/Shell Nanoparticles.
Jalpa Patel1, Dorothy Farrell2,
Ivan P. Parkin1 and Quentin A. Pankhurst2;
1Dept. of Chemistry, University College London, London,
United Kingdom; 2Dept. of Physics and Astronomy,
University College London, London, United Kingdom.
4:30 PM S5.9
Growth Mechanisms and Oxidation-Resistance of Gold-Coated
Iron Nanoparticles. Sung-Jin Cho1, Juan-Carlos
Idrobo2, Justin Olamit2, Kai Liu2,
Nigel D. Browning3,4 and Susan M. Kauzlarich1;
1Department of Chemistry, University of California,
Davis, California; 2Department of Physics, University
of California, Davis, California; 3Department
of Chemical Engineering and Material Science, University
of California,
Davis, California; 4National Center for Electron
Miscroscopy, Lawrence Berkeley National Laboratory, Berkeley,
California.
4:45 PM S5.10
Carbon Encapsulated Magnetic Nanoparticles Produced by a
Catalytic Disproportionation of Carbon Monoxide. Eugene
A. Katz1, Oleg Prilutskiy2, Alex Shames3,
Emma Mogilko4 and I. Bruckental4; 1Inst.
for Des. Res., Dept. of Solar Energy and Evironmental Physics,
Ben-Gurion University of the Negev, Sede Boqer, Israel; 2CMC
Ltd, Ofakim, Israel; 3Department of Physics, Ben-Gurion
University of the Negev, Beer-Sheva, Israel; 4Department
of Physics, Bar-Ilan University, Ramat-Gan, Israel.
SESSION S6: Poster Session: Magnetic Nanoparticles and Nanowires
Chairs: Dhananjay Kumar and Lynn Kurihara
Wednesday Evening, March 30, 2005
8:00 PM
Salons 8-15 (Marriott)
S6.1
Surface Effects on the Magnetic Behavior of Nanocrystalline
Nickel Ferrites: The Effect of Surface Roughness and Dilution.
Devesh K. Misra1, Harish Nathani1
and W. F. Egelhoff2; 1Chemical Engineering,
University of Louisiana at Lafayette, Lafayette, Louisiana;
2Magnetic Materials Division, National Insitute
of Standards and Technology, Gaithersburg, Maryland.
S6.2
Sintering Behavior of NiZn Ferrite Nanoparticles Interpreted
in a Surface Structure Model. Rajasekaran Swaminathan1,
Scott Calvin2, Rameil Jacob1 and Michael
E. McHenry1; 1Materials Science and
Engineering, Carnegie Mellon University, Pittsburgh, Pennsylvania;
2Physics, Sarah Lawrence College, Bronxville, New
York.
S6.3
Static and Dynamic Response of Isolated and Structured
Iron Nanoparticles. Eugene Venturini, Dale Huber,
James Martin and Paula Provencio; Sandia National Laboratories,
Albuquerque, New Mexico.
S6.4
Amorphous Se: A New Platform for Synthesizing Superparamagnetic
Colloids with Controllable Surfaces. Unyong Jeong
and Younan Xia; Chemistry, University of Washington, Seattle,
Washington.
S6.5
Transferred to S5.3
S6.6
Fabrication of Core-Shell Type Nanoparticles. Jianmin
Bai, Yunhao Xu and Jianping Wang; MINT & Dept. of Electrical
and Computer Engineering, University of Minnesota, Minneapolis,
Minnesota.
S6.7
Synthesis and Frequency Dependent Properties of Core/Shell
Magnetic Nanoparticles. Christy Vestal1
and Max Alexander2; 1Universal Technology
Corporation, Dayton, Ohio; 2Air Force Research
Laboratory, Wright-Patterson AFB, Ohio.
S6.8
Supercritical Hydrothermal Synthesis of MgFe2O4
Nanoparticles. Takafumi Sasaki, Seiichi Takami,
Satoshi Ohara, Mitsuo Umetsu and Tadafumi Adschiri; Institute
of Multidisciplinary Research for Advanced Materials, Tohoku
University, Sendai, Miyagi, Japan.
S6.9
Ferromagnetic Resonance of Iron Nanoparticles Formed by
Sonoelectrochemical Precipitation. Tamara Gharibyan, Arshack
Khachatryan, Varya Minasyan and Vahe Khachatryan; Kinetics
and Catalysis, Institute of Chemical Physics of NAS of Armenia,
Yerevan, Armenia.
S6.10
ABSTRACT WITHDRAWN
S6.11
Monodisperse Magnetic Iron Oxide Nanocrystals: Synthesis
and Application. William W. Yu and Vicki L. Colvin;
Chemistry (MS60), Rice University, Houston, Texas.
S6.12
In Situ Synthesis of Nickel and Zinc Ferrite Particle/Organic
Hybrid. Toshinobu Yogo, Yasuaki Hayashimoto and
Wataru Sakamoto; EcoTopia Science Institute, Nagoya University,
Nagoya University, Nagoya, Aichi, Japan.
S6.13
Synthesis and Magnetic Properties of CoPt(Ag) Nanoparticles
Assembly. Xiangcheng Sun1, Yunhe Huang2,
Zhiyong Jia3, J. W. Harrell3 and D.
E. Nikles3; 1Department of Nuclear Engineering,
University of Michigan, Ann Arbor, Michigan; 2Physics,
University of Delaware, Newark, Delaware; 3Center
for Materials for Information Technology, University of Alabama,
Tuscaloosa, Alabama.
S6.14
Fabrication of Uniform Metal Nanowire Arrays. Kun
Yang and W. J. Yeh; Physics, University of Idaho, Moscow,
Idaho.
S6.15
ABSTRACT WITHDRAWN
S6.16
Ferromagnetic Mn-Doped GaN Nanowires for Nanospintronics.
Doo Suk Han, Chan Woong Na, Woo Sung Jang, Seung Yong
Bae and Jeunghee Park; Korea University, Seoul, South Korea.
S6.17
Alignment of the Cobalt Layered Nanotubes Using Magnetic
Field. Daekyun Jeong, Taekwan Oh, Hyunjung Shin,
Jaegab Lee and Jiyoung Kim; Advanced Materials Engineering,
Kookmin University, Seoul, South Korea.
S6.18
Formation of 2-D and 3-D Arrays of Colloidal Co Magnetic
Nanoparticles. Eva Majkova1, Yuriy Chushkin1,
Livia Chitu1, Stefan Luby1, Alexander
Satka2, Vaclav Holy3, Jozef Ivan4,
Michael Giersig5, Michael Hilgendorff5,
Helmuth Metzger6 and Oleg Konovalov6;
1Institute of Physics SAS, Bratislava, Slovakia;
2I, International Laser Center and Faculty of Electrical
Engineering and Informatics STU, Bratislava, Slovakia; 3Institute
of Condensed Matter Physics, Masaryk University, Brno, Czech
Republic; 4Institute of Materials and Machine Mechanics
SAS, Bratislava, Slovakia; 5Caesar Research Center,
Bonn, Germany; 6European Synchrotron Radiation
Facility, Grenoble, France.
S6.19
Directed Self-Assembly of Nanopore Arrays and Fabrication
of Nanowires with Long Range Order. Liwen Tan1,
Jia Zou2, Nahyoung Kim2 and Bethanie
J. H. Stadler2; 1Chemical Engineering
and Materials Science, University of Minnesota, Minneapolis,
Minnesota; 2Electrical and Computer Engineering,
University of Minnesota, Minneapolis, Minnesota.
S6.20
Self-Assembling Magnetic Nanostructures: Wires, Helices,
Nanotubes of Ni Nanoparticles. Vladimir V. Kislov1,
Yury V. Gulyaev1, Igor V. Taranov1,
Vadim V. Kashin1, V. M. Kozhevin2, D.
A. Yavsin2, M. A. Zabelin2 and P. A.
Tretyakov2; 1Institute of Radioengineering
& Electronics, Russian Academy of Sciences, Moscow, Russian
Federation; 2Ioffe Physico-Technical Institute,
Russian Academy of Sciences, St. Petersburg, Russian Federation.
S6.21
Transferred to S3.7
S6.22
Investigations on the Magnetic Properties of High-Coercivity
Nd40Fe30Co15Al10B5 Bulk Amorphous Alloys. Lotfi Bessais1,3,
Catherine Djega-Mariadassou1 and N.X. Phuc2;
1UPR209, LCMTR - CNRS, Thiais, France; 2Institut
of Materials Science, NCST, Hanoi, Viet Nam; 3IUFM,
Creteil, France.
S6.23
Magnetic Susceptibility of Montmorillonite: Tri-Axially
Reinforced Nanocomposites from Uniaxial Magnetic Fields.
Hilmar Koerner1, Zafer Turgut2,
Lawrence Drummy3, Peter Mirau3 and
Richard Vaia3; 1Nonmetallic Materials
Division, Univ of Dayton Res Inst, Dayton, Ohio; 2UES
Inc., Dayton, Ohio; 3Materials and Manufacturing
Directorate, AFRL, WPAFB, Ohio.
S6.24
Structural and Magnetic Properties of Granular Co-ZrO2
Films. Zorica Konstantinovic1, Bart
J. Hattink1, Montserrat Garcia del Muro1,
Xavier Batlle1, Amilcar Labarta1 and
Manuel Varela2; 1Departament de Fisica
Fonamental, Universitat de Barcelona, Barcelona, Spain; 2Departament
de Fisica Aplicada i Optica, Universitat de Barcelona, Barcelona,
Spain.
S6.25
Magneto-Transport and Neutron Diffraction Studies of a
Short Range Ferromagnetic Order in Amorphous GdxSi1-x
Alloys. Nikolai Chumakov1, Victor Tugushev1,
Stanislav Gudenko1, Olga Nikolaeva1,
Valery Ozhogin1, Pavel Alekseev1, Vladimir
Lazukov1, Igor Goncharenko1, Erik Helgren2
and Frances Hellman2; 1RRC Kurchatov
Institute, Moscow, Russian Federation; 2Department
of Physics, University of California, Berkeley, California.
S6.26
Transferred to S4.3
S6.27
Magnetoresistance and TEM Characterization of MnAs/AlCrN/GaN
and GaMnN/AlCrN/GaN TMR Structures. Sang Youn Han1,
Rachel Frazier1, Brent Gila1, Andrew
Herrero1, C. R. Abernathy1, S. J. Pearton1,
Josh Kelly2 and A. F. Hebard2; 1Department
of Materials Science and Engineering, University of Florida,
Gainesville, Florida; 2Department of Physics, University
of Florida, Gainesville, Florida.
S6.28
ABSTRACT WITHDRAWN
S6.29
ABSTRACT WITHDRAWN
S6.30
DNA Separation Using Gold/Magnetic Iron-Oxide Composite
Nanoparticles. Takuya Kinoshita1, Satoshi
Seino2, Yohei Otome1, Yoshiteru Mizukoshi3,
Takashi Nakagawa1, Tadachika Nakayama2,
Tohru Sekino2, Koichi Niihara2 and Takao
A. Yamamoto1; 1Graduate School of Engineering,
Osaka University, Suita, Osaka, Japan; 2The Institute
of Scientific and Industrial Research, Osaka University, Ibaraki,
Osaka, Japan; 3Osaka Prefectural College of Technology,
Neyagawa, Osaka, Japan.
S6.31
Synthesis of Different Shape Nanoparticles of Iron Oxides
for Biomedical Applications. P. E. Garcia-Casillas1,
Carlos A. Martinez-Perez1, Eduardo Perez-Eguia2,
Jose A. Matutes-Aquino3 and Humberto A. Monreal3;
1Instituto de Ingenieria y Tecnologia, Universidad
Autonoma de Cd. Juarez, Juarez, Chihuahua, Mexico; 2Instituto
de Ciencias Biomedicas, Universidad Autonoma de Cd. Juarez,
Juarez, Chihuahua, Mexico; 3Division de Ceramicos,
Centro de Investigacion en Materiales Avanzados, Chihuahua,
Chihuahua, Mexico.
S6.32
Soft Magnetic Vapor Phase Co-Deposited Polymer-Metal Nanocomposites
for High Frequency Applications. Henry Greve1,
Abhijit Biswas3, Michael Scharnberg1,
Vladimir Zaporojtchenko1, Franz Faupel1,
Michael Frommberger2 and Eckhard Quandt2;
1Chair for Multicomponent Materials, Faculty of
Engineering of the Christian-Albrechts University, Kiel,
Germany;
2Smart Materials Group, CAESAR, Bonn, Germany;
3Applied Science Laboratory, Institute for Shock
Physics, Spokane, Washington.
SESSION S7: Nanowires and Applications
Chair: Gerd Duscher
Thursday Morning, March 31, 2005
Room 3005 (Moscone West)
8:30 AM *S7.1
Pulsed
Laser Assisted Fabrication of Self-Assembled Iron Nanoparticles
in Epitaxial TiN Thin Film Matrix. Shri Dana1,
Dhananjay Kumar1, Jag Sankar1, Albert
A. Gapud2 and David K. Christen2;
1Center for Advanced Materials and Smart Structures,
Mechanical Engg, North Carolina A&T State University, Greensboro,
North Carolina; 2Solid State Sciences Division, Oak
Ridge National Laboratory, Oak Ridge, Tennessee.
9:00 AM S7.2
Two-Mode Magnetic Switching of a Ferromagnetic Nanowire-Granule-Array
Embedded in a Porous Silicon Matrix. Klemens Rumpf,
Petra Granitzer and Heinz Krenn; Institute of Experimental Physics,
University of Graz, Graz, Austria.
9:15 AM S7.3
Diluted Magnetic Semiconductor Mn:GaN Nanowires. Heon-Jin
Choi1, Han-Kyu Sung1,2, Yun-Ki Pyun2,
Young-Mi Paik2, Joonyeon Jang2, Yong-Ju
Park2, Rongrui He3 and Peidong Yang3;
1School of Advanced Materials Science and Engineering,
Yonsei University, Seoul, South Korea; 2Materials
Science and Technology Division, Korea Institute of Science
and Technology, Seoul, South Korea; 3Department of
Chemistry, University of California, Berkeley, Berkeley, California.
9:30 AM S7.4
Synthesis of Magnetic Self-Assembled Nickel-Rich Oxide Nanowires
Using a Novel Electrochemical Process. Yash Bhargava1,
Shawn Thorne1, Todd Mintz1, Velimir Radmilovic2,
Yuri Suzuki1 and Thomas Devine1; 1Materials
Science and Engineering, UC Berkeley, Berkeley, California;
2National Center for Electron Microscopy, Lawrence
Berkeley National Laboratory, Berkeley, California.
9:45 AM S7.5
Self-Assembly Synthesis and Characterization of FePt Nanowires.
Yanglong Hou1, Hiroshi Kondoh1,
Renchao Che2, Erika, O. Sako1, Masaki
Takeguchi2 and Toshiaki Ohta1; 1Department
of Chemistry, School of Science, The University of Tokyo, Tokyo,
Japan; 2National Institute for Materials Science,
Tsukuba, Japan.
10:00 AM BREAK
10:30 AM *S7.6
Multifunctional Magnetic Nanowires for Biotechnology and
Biomagnetics Applications. Daniel H. Reich, Physics
and Astronomy, Johns Hopkins University, Baltimore, Maryland.
11:00 AM S7.7
Self-Assembled Iron Nanowires: Electrical and Magnetic Properties.
Tim Patrick Huelser1,2, Hartmut Wiggers2,
Joerg Knipping2 and Axel Lorke1; 1Dept
of Physics, University Duisburg-Essen, Duisburg, NRW, Germany;
2Dept of Mechanical Engineering, Institute of Combustion
and Gasdynamics, Duisburg, NRW, Germany.
11:15 AM S7.8
Formation and Characterization of Magnetic Multilayer Ni/Cu
Nanoanowires. Ru-Shi Liu1,2, Sung-Chun
Chang1, Shu-Fen Hu2,3 and Chao-Yuan Huang2,4;
1Department of Chemistry, National Taiwan University,
Taipei 106, Taiwan; 2Taiwan Spin Research Center,
National Chung Cheng University, Chia-Yi 621, Taiwan; 3National
Nano Device Laboratories, Hsinchu 300, Taiwan; 4Institute
of Materials Manufacturing, Chinese Culture University, Taipei
111, Taiwan.
11:30 AM S7.9
Magnetoresistive La0.67Sr0.33MnO3 Nanowires. Chao
Li, Bo Lei and Chongwu Zhou; Dept. of EE, Univ. of Southern
California, LA, California.
11:45 AM S7.10
Magnetite (Fe3O4) One-Dimensional Nanowires and Nanotubes:
Synthesis and Magnetoresistance. Daihua Zhang, Zuqin Liu,
Song Han, Chao Li, Bo Lei and Chongwu Zhou; EEEP, University
of Souther California, Los Angeles, California.
SESSION S8: Biomagnetic Materials and Applications I
Chair: Lynn Kurihara
Thursday Afternoon, March 31, 2005
Room 3005 (Moscone West)
1:30 PM *S8.1
Synthesis and Surface Modification of Monodisperse Magnetic
Nanoparticles for Biological Applications. Shouheng Sun1,2,
Hao Zeng2, Heng Yu2, David Robinson3,
Guanxiong Li3, Shan Wang3 and Robert White3;
1Department of Chemistry, Brown University, Providence,
Rhode Island; 2IBM T. J. Watson Research Center,
Yorktown Heights, New York; 3Stanford University,
Stanford, California.
2:00 PM *S8.2
Novel Medical Ferrite Nanobeads with Bioactive Molecules
Immobilized Strongly Onto the Surfaces. Masanori Abe1,
Nobuhiro Matsushita1 and Hiroshi Handa2;
1Department of Physical Electronics, Tokyo Institute
of Technology, Tokyo, Japan; 2Department of Biological
Information, Tokyo Institute of Technology, Yokohama, Japan.
2:30 PM S8.3
A Nanoscale, Magnetism-Based Platform for Kinetic Studies
of Biomolecular Binding Events at Surfaces. Marc P. Raphael,
Lynn K. Kurihara, David J. Pena, Michael M. Miller, Joseph A.
Christodoulides and Jeff M. Byers; Code 6363, Naval Research
Laboratory, Washington, District of Columbia.
2:45 PM S8.4
Attenuating Protein Adsorption with Vibrating Nanowires as
a Way to Inhibit In Vivo Biofouling of Implanted Sensors.
Kristy Ainslie1 and Michael Pishko1,2,3;
1Chemical Engineering, Penn State, University Park,
Pennsylvania; 2Material Science, Penn State, University
Park, Pennsylvania; 3Chemistry, Penn State, University
Park, Pennsylvania.
3:00 PM BREAK
3:30 PM *S8.5
Designing Magnetically "Colorful" Nanolabels for Biochemical
Sensors. Mark Tondra, NVE Corporation, Eden Prairie,
Minnesota.
4:00 PM S8.6
Enzymatic Clipping of DNA Wires Coated with Magnetic Nanoparticles.
Joseph Kinsella and Albena Ivanisevic; Purdue University,
West Lafayette, Indiana.
4:15 PM S8.7
A TEM Study Biological Distribution of Superparamagnetic
Iron Oxide Nanoparticles. Jikou Zhou1,
Lauren Heyward1, Carola Leuschner2, Challar
Kumar3, Josef Hormes3 and Wole O. Soboyejo1;
1Mechanical and Aerospace Engineering, Princeton
University, Princeton, New Jersey; 2Pennington Biomedical
Research Center, Louisiana State University, Baton Rouge, Louisiana;
3Center for Advanced Microstructures and Devices,
Louisiana State University, Baton Rouge, Louisiana.
4:30 PM *S8.8
Properties, Surface Functionalization and Cytotoxicity of
Chemically Synthesized Iron Oxide and Nickel Ferrite Nanoparticles.
Gan-Moog Chow, Molecular Engineering of Biological and
Chemical Systems, Singapore-Massachusetts Institute of Technology
Alliance, Singapore, Singapore; Department of Materials Science,
National University of Singapore, Singapore, Singapore.
SESSION S9: Biomagnetic Materials and Applications II
Chair: Marc Raphael
Friday Morning, April 1, 2005
Room 2020 (Moscone West)
9:00 AM *S9.1
Effect of Magnetic Nanoparticles and Their Surface Termininations
on Alignment of Biological Molecules. L. J. Martinez-Miranda1,
I. Koh2, S. Ehrman2 and T. Pulliam-Holoman2;
1Department of Materials Science and Engineering,
University of Maryland, College Park, Maryland; 2Department
of Chemical Engineering, University of Maryland, College Park,
Maryland.
9:30 AM S9.2
In Vitro Analysis of Magnetic Field-Induced Superparamagnetic
Nanoparticle Dynamics in Extracellular Matrix. Sam J.
Kuhn1, Chun-Cheng R. Chen1, Dennis
E. Hallahan2,1 and T. D. Giorgio1,3; 1Biomedical
Engineering, Vanderbilt University, Nashville, Tennessee; 2Radiation
Oncology, Vanderbilt University, Nashville, Tennessee; 3Chemical
Engineering, Vanderbilt University, Nashville, Tennessee.
9:45 AM BREAK
10:15 AM *S9.3
Magnetic Nanoparticles for Biotechnology and Biomedicine.
Quentin Pankhurst, London Centre for Nanotechnology,
University College London, London, United Kingdom.
10:45 AM S9.4
Gold/Magnetic Iron-oxide Composite Nanoparticles for Biological
Applications. Takao A. Yamamoto1, Takuya
Kinoshita1, Satoshi Seino2, Yohei Otome1,
Yoshiteru Mizukoshi3, Takashi Nakagawa1,
Tadachika Nakayama2, Tohru Sekino2 and
Koichi Niihara2; 1Graduate School of Engineering,
Osaka University, Suita, Osaka, Japan; 2The Institute
of Scientific and Industrial Research, Osaka University, Ibaraki,
Osaka, Japan; 3Osaka Prefectural College of Technology,
Neyagawa, Osaka, Japan.
11:00 AM S9.5
Manipulation of Non-Magnetic Materials in Ferrofluid Containing
Media. Derek S. Halverson1, B. B. Yellen2,1
and G. Friedman1; 1Electrical & Computer
Engineering, Drexel University, Philadelphia, Pennsylvania;
2Division of Cardiology, Children's Hospital of Pennsylvania
(CHOP), Philadelphia, Pennsylvania.
11:15 AM S9.6
Use of Ferrofluid Patterns as Diffusion Masks. Derek
S. Halverson1, B. B. Yellen2,1 and
G. Friedman1; 1Electrical and Computer
Engineering, Drexel University, Philadelphia, Pennsylvania;
2Division of Cardiology, Children's Hospital of Pennsylvania
(CHOP), Philadelphia, Pennsylvania.
Symposium Organizers
D. Kumar
North Carolina A&T State University, Dept. of Mechanical & Chemical Engineering, Greensboro, NC 27411
Tel: 336-256-1151
Fax: 336-256-1153
dkumar@ncat.edu |
L. Kurihara
Naval Research Laboratory, Code 6363
Washington, DC 20375
Tel: 202-767-2563
Fax: 202-404-8933
kurihara@anvil.nrl.navy.mil
|
I. W. Boyd
University College London, Electronic & Electrical Engineering
Torrington Place
London, WC1E 7JE
United Kingdom
Tel: 44-0-207-679-7307
Fax: 44-0-207-388-9325
i.boyd@ee.ucl.ac.uk
|
G. Duscher
North Carolina State University
Dept. of Materials Science & Engineering
Raleigh, NC 27695
Tel: 919-515-1104
Fax: 919-515-1699
gerd_duscher@ncsu.edu
|
V. Harris
Northeastern University
Dept. of Electrical & Computer Engineering
440 Dana Research Center, 360 Huntington Ave.
Boston, MA 02115-5000
Tel: 617-373-7603
Fax: 617-373-4853
harris@ece.neu.edu
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