Section 1 Benefits of Combinatorial Approaches to Sensor
Problems
1 Introduction to Combinatorial Methods for Chemical
and Biological Sensors ....................................... 3
Radislav A. Potyrailo and Vladimir M. Mirsky
2 Main Concepts of Chemical and Biological Sensing ............ 25
Marek Trojanowicz
Section 2 Self-Assembled Monolayers and Nanoparticles
3 Self-Assembled Monolayers with Molecular Gradients .......... 63
Michael Schäferling, Michael Riepl, and Bo Liedberg
4 Combinatorial Libraries of Fluorescent Monolayers on
Glass ....................................................... 81
Lourdes Basabe-Desmonts, David N. Reinhoudt, and Mercedes
Crego-Calama
5 High-Throughput Screening of Vapor Selectivity of
Multisize CdSe Nanocrystal/Polymer Composite Films ......... 117
Radislav A. Potyrailo and Andrew M. Leach
Section 3 Molecular Imprinting
6 Computational Design of Molecularly Imprinted Polymers ..... 135
Sreenath Subrahmanyam and Sergey A. Piletsky
7 Experimental Combinatorial Methods in Molecular
Imprinting ................................................. 173
Börje Sellergren, Eric Schillinger, and Francesca Lanza
Section 4 Biological Receptors
8 Combinatorially Developed Peptide Receptors for
Biosensors ................................................. 201
Chikashi Nakamura and Jun Miyake
9 Combinatorial Libraries of Arrayable Single-Chain
Antibodies ................................................. 223
Itai Benhar
10 A Modular Strategy for Development of RNA-Based
Fluorescent Sensors ........................................ 249
Masatora Fukuda, Tetsuya Hasegawa, Hironori Hayashi,
and Takashi Morii
Section 5 Inorganic Gas-Sensing Materials
11 Impedometric Screening of Gas-Sensitive Inorganic
Materials .................................................. 273
Maike Siemons and Ulrich Simon
12 Design of Selective Gas Sensors Using Combinatorial
Solution Deposition of Oxide Semiconductor Films ........... 295
Jong-Heun Lee, Sun-Jung Kim, and Pyeong-Seok Cho
Section 6 Electrochemical Synthesis of Sensing Materials
13 Combinatorial Development of Chemosensitive Conductive
Polymers ................................................... 315
Vladimir M. Mirsky
14 Robotic Systems for Combinatorial Electrochemistry ......... 331
Sabine Borgmann and Wolfgang Schuhmann
Section 7 Optical Sensing Materials
15 Combinatorial Chemistry for Optical Sensing
Applications ............................................... 373
M.E. Dfaz-García, G. Pina Luis, and I.A. Rivero-Espejel
16 High Throughput Production and Screening Strategies
for Creating Advanced Biomaterials and Chemical Sensors .... 393
William G. Holthoff, Loraine T. Tan, Ellen L. Shughart,
Ellen M. Cardone, and Frank V. Bright
17 Diversity-Oriented Fluorescence Library Approach for
Novel Sensor Development ................................... 419
Shenliang Wang and Young-Tae Chang
18 Construction of a Coumarin Library for Development of
Fluorescent Sensors ........................................ 441
Tomoya Hirano and Hiroyuki Kagechika
Section 8 Mining of New Knowledge on Sensing Materials
19 Determination of Quantitative Structure-Property
Relationships of Solvent Resistance of Polycarbonate
Copolymers Using a Resonant Multisensor System ............. 455
Radislav A. Potyrailo, Ronald J. Wroczynski, Patrick
J. McCloskey, and William G. Morris
20 Computational Approaches to Design and Evaluation
of Chemical Sensing Materials .............................. 471
Margaret A. Ryan and Abhijit V. Shevade
Section 9 Outlook
21 Combinatorial Methods for Chemical and Biological
Sensors: Outlook ........................................... 483
Radislav A. Potyrailo and Vladimir M. Mirsky
Index ......................................................... 489
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