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| Suggested format for citation of papers in this volume: |
| List all author names: Title of article, in Semiconductor Materials for Sensing, edited by Sudipta Seal, Marie-Isabelle Baraton, Clyde Parrish, and Norimitsu Murayama (Mater. Res. Soc. Symp. Proc. 828, Warrendale, PA , 2005), insert paper number. |
Porous Tin Dioxide Materials for Gas Sensor Application A1.1
Makoto Egashira, Yasuhiro Shimizu, and Takeo Hyodo
Organically Hybridized In2O3 Thin Film Gas Sensors A1.2
Ichiro Matsubara, Norimitsu Murayama, Woosuck Shin, and Noriya Izu
Flame Spray Synthesis of Tin Oxide Nanoparticles for Gas Sensing A1.3
Thorsten Sahm, Lutz Mädler, Alexander Gurlo, Nicolae Barsan, Sotiris E. Pratsinis, and Udo Weimar
Nano-Design of Oxide Particles and Electrode Structure for High Sensitivity NO2 Sensor Using WO3 Thick Film A1.4
Jun Tamaki
Near Surface Characteristics of Highly Sensitive Metal Oxide Thin Films A1.5
G. Kiriakidis
Room Temperature Hydrogen Gas Sensitivity of Nanocrystalline-Doped Tin Oxide Sensor Incorporated into MEMS Device A1.6
Satyajit Shukla, Rajnikant Agrawal, Lawrence Ludwig, Hyoung Cho, and Sudipta Seal
Sensitive, Selective, and Tunable Porous Silicon Gas Sensor A1.7
Stephen Lewis, James Gole, and Peter J. Hesketh
Development of a Hybrid Enzyme-Based Porous Silicon Platform for Chemical Warfare Agent Detection A1.8
Sonia E. Létant, Bradley R. Hart, Staci R. Kane, Masood Z. Hadi, Sharon J. Shields, Tu-Chen Cheng, Vipin K. Rastogi, J. Del Eckels, and John G. Reynolds
Sol-Gel Derived Porous Silica as a Constituent Material for Designing Optical Fiber Chemical Sensors A1.9
Shiquan Tao, Joseph C. Fanguy, and Lina Xu
Multiplexed Electrical Detection of Single Viruses A2.2
Gengfeng Zheng, Fernando Patolsky, and Charles M. Lieber
Sensing Properties of CNT Hybrid MOS-Based Sensors A2.6
Wei-Jen Liou, Tsung-Yeh Yang, Kuang-Nan Lin, Ching-Hong Yang, and Hong-Ming Lin
In2O3 Nanowire Mat Devices as High Performance NO2 Gas Sensors A2.7
Daihua Zhang, Zuqin Liu, and Chongwu Zhou
Sub-Micron Structured Metal Oxide Gas Sensors by Means of Lithographic Techniques A2.8
Patrizio Candeloro, Camilla Baratto, Elisabetta Comini, Guido Faglia, Enzo M. Di Fabrizio, and Giorgio Sberveglieri
Electrochemically Fabricated Conducting Polymer Nanoframework Electrode Junctions That Function as Resistive Sensors A2.10
Hsian-Rong Tseng, Jun Wang, and Maksudul M. Alam
A Titania Nanotube-Array Room-Temperature Sensor for Selective Detection of Low Hydrogen Concentrations A3.1/K4.1
Oomman K. Varghese, Gopal K. Mor, Maggie Paulose, and Craig A. Grimes
Resistive Oxygen Gas Sensors Using Cerium Oxide Nanosized Powder A3.2/K4.2
Norimitsu Murayama, Noriya Izu, Woosuck Shin, and Ichiro Matsubara
Thermodynamic and Kinetic Principles for Electrochemical Gas Sensors Based on Solid Ionic Conductors A3.3/K4.3
Evangelos D. Tsagarakis and Werner Weppner
Sr(Ti,Fe)O3-d Exhaust Gas Sensors A3.7/K4.7
Thomas Schneider, Christoph Peters, Stefan Wagner, Wolfgang Menesklou, and Ellen Ivers-Tiffée
High Temperature Operation and Stability of Langasite Resonators A3.9/K4.9
H. Fritze, M. Schulz, H. Seh, and H.L. Tuller
Rational Synthesis and Optimization of Multifunctional Solid-State Gas Sensors A4.1
Johannes Schwank and Ghenadii Korotcenkov
A Novel Theoretical Model for Semiconductor Oxide Gas Sensor A4.2
Satyajit Shukla and Sudipta Seal
Environmental Sensitivity of Pentacene Thin-Film Transistors A4.4
M. Breban, S. Mezhenny, D.R. Hines, D.B. Romero, V.W. Ballarotto, and E.D Williams
Gas sensors Based on Semiconductor Oxides: Basic Aspects Onto Materials and Working Principles A4.6
M. Cristina Carotta, Alessio Giberti, Vincenzo Guidi, Cesare Malagù, Beatrice Vendemiati, and Giuliano Martinelli
Sensing Mechanism of NO in Nanocrystalline Ru, Pt, Pd-Doped SnO2: Electron Paramagnetic Resonance, Mössbauer and Electrical Study A4.7
Carmen Canevali, Claudio Maria Mari, Mariachiara Mattoni, Franca Morazzoni, Riccardo Ruffo, Roberto Scotti, Umberto Russo, and Luca Nodari
FTIR Analysis of the Mechanisms of NOx Detection by Semiconductor Metal Oxide Nanoparticles A4.8
Marie-Isabelle Baraton and Lhadi Merhari
Effect of Thickness of Ion Beam Deposited Molybdenum Trioxide Thin Films on Gas Sensing Properties A4.9
Arun K. Prasad and Pelagia I. Gouma
HRTEM / EELS Analysis, Structural Characterization and Sensor Performances of Hydrothermal Nano-TiO2 A4.10
Ana M. Ruiz, J. Arbiol, A. Cornet, K. Shimanoe, Joan R. Morante, and N. Yamazoe
Sensing Behavior of Perovskites GdCo1-xCuxO3 Prepared by Solution and Ultrasonic-Assisted Aerosol Methods A5.1
Carlos R. Michel, Edgar R. López, and Arturo Chávez
Gas Selectivity of Polycrystalline Thick Films of SrPb1-xBixO3-d A5.2
Carlos R. Michel, Gloria Santillán, Abraham Quino, and Arturo Chávez
Performance of a MIS Type Pd-Cr/AlN/Si Hydrogen Sensor A5.4
Linfeng Zhang, Ibrahim A. Al-Homoudi, Md.H. Rahman, Erik F. McCullen, Lajos Rimai, Ron J. Baird, Ratna Naik, Golam Newaz, Gregory W. Auner, K.Y. Simon Ng
Formation of Porous Silicon Layers on Insulating Substrate for Microbridge - Type Sensor Applications A5.6
Sergey Ya. Andrushin, Leonid A. Balagurov, Sue C. Bayliss, Galina V. Liberova, Elena A. Petrova, Bayram Unal, and Dmitrii G. Yarkin
Vitreous Chalcogenide Semiconductors for Gas Sensing Application A5.8
Serghei V. Dmitriev and Igor V. Dementiev
Mechanism of the Oxygen Interaction With a Surface of Thin Nanosized Metal Oxide Film A5.9
Vladimir I. Brinzari, Serghei V. Dmitriev, and Ghenadii S. Korotcenkov
Surface Plasma Treatment and Sensibilization of Tin Dioxide Films for Enhancement of Gas Sensitivity and Selectivity A5.11
Serghei V. Dmitriev, Vladimir I. Brinzari, and Ghenadii S. Korotcenkov
Chemical Synthesis, Characterization and Gas-Sensing Properties of Thin Films in the In2O3-SnO2 System A5.12
Mauro Epifani, Raül Díaz, Antonella Taurino, Luca Francioso, Pietro Siciliano, and Joan R. Morante
Fe2O3:SnO2 Nanostructured System as Semiconductor Gas Sensor Material A5.15
J. Arbiol, J.R. Morante, M. Rumyantseva, V. Kovalenko, and A. Gaskov
Chemical Vapor Depositions of Single Walled Carbon Nanotube Thin Films and Their Applications for Sensors in Aqueous Solutions A5.19
Qiang Fu, Lei An, Chenguang Lu, and Jie Liu
Synthesis of Monolayer-Capped GaAs Nanoparticles A5.20
Jin Luo, Lingyan Wang, Li Han, Mathew M. Maye, Jian Q. Wang, Eric I. Altman, and Chuan-Jian Zhong
Effects of Various Annealing Temperature on Carbon Nanotubes for N2 Detection A5.22
Chien-Sheng Huang, Bohr-Ran Huang, Yung-Huang Jang, Chih-Fu Hsieh, Chia-Ching Wu, Min-Chao Chen, and Kun-Lin Yang
Nanomaterials as Low Density Lipoprotein (LDL) Sensors A5.26
Tao Tang, Xiaolei Liu, Chao Li, Bo Lei, Daihua Zhang, Mahsa Rouhanizadeh, Tzung Hsiai, and Chongwu Zhou
Printed Organic Electronic Devices Made Using High Volume Printing Processes A5.28
Yu Xia, Anupama Karwa, Franz Sigg, Daniel M. Clark, and Bruce E. Kahn
Printable Electronics: Patterning of Conductive Materials for Novel Applications A5.29
Anupama Karwa, Yu Xia, Daniel M. Clark, Thomas W. Smith, and Bruce E. Kahn
Encapsulation of Urease in Molybdenum Trioxide Sol-Gel A6.2
Prashant K. Jha and P.I. Gouma
Electronic Detection of Nucleic Acid Molecules With a Field-Effect Transistor A6.9
Sven Ingebrandt, Yinhua Han, Malla-Reddy Sakkari, Regina Stockmann, Oleksandr Belinskyy, and Andreas Offenhäusser
Micro Sensor Operating at Room Temperature A7.1
Song-Kap Duk and Duk-Dong Lee
SiGe Thermoelectric Film for Gas Sensor Micro-Devices A7.2
Woosuck Shin, Kazuki Tajima, Yeongsoo Choi, Noriya Izu, Ichiro Matsubara, and Norimitsu Murayama
Integration of Microcatalysts on Thin Membrane for Thermoelectric Gas Sensor Devices A7.3
Yeongsoo Choi, Woosuck Shin, Kazuki Tajima, Noriya Izu, Ichiro Matsubara, and Norimitsu Murayama
The Development and Evaluation of TiO2 Nanoparticle Films for Conductometric Gas Sensing on MEMS Microhotplate Platforms A7.4
Kurt D. Benkstein, Christopher B. Montgomery, Mark D. Vaudin, and Steve Semancik
Low Cost Integrated Sensors Utilizing Patterned Nano-Structured Titania Arrays Fabricated Using a Simple Process A7.5
Zuruzi Abu Samah, Andrei Kolmakov, Martin Moskovits, and Noel C. MacDonald
Floating-Gate Ion Sensitive Field-Effect Transistor for Chemical and Biological Sensing A7.8
Ben Zhao, Tsunehiro Sai, Arifur Rahman, and Kalle Levon
High-Temperature SiC MOSFET Gas Sensors A7.9
Kevin Matocha, Vinayak Tilak, Peter Sandvik, and Jesse Tucker
Interdiffusion and Reaction of Pd on Atomically Stepped 6H-SiC Surfaces: Progress Toward Thermally Stable High Temperature Gas Sensors A7.10
C.D. Stinespring, C.Y. Peng, A.A. Woodworth, K. Meehan, M.J. Murdoch-Kitt, and C.L. Anderson
Pulse Shape Study of Chemical Vapor Deposited Diamond Alpha Particle Detectors A8.7
S.G. Wang, P.J. Sellin, A. Lohstroh, and M.E. Özsan
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