| 1 - 2 |
Introduction: Chemical Sensors
Swager TM, Mirica KA |
| 3 - 35 |
Chemical and Biomolecule Sensing with Organic Field-Effect Transistors
Li H, Shi W, Song J, Jang HJ, Dailey J, Yu JS, Katz HE |
| 36 - 93 |
Conducting Nanomaterial Sensor Using Natural Receptors
Kwon OS, Song HS, Park TH, Jang J |
| 94 - 119 |
Molecularly Imprinted Polymers
BelBruno JJ |
| 120 - 194 |
Functional Nanomaterials and Nanostructures Enhancing Electrochemical Biosensors and Lab-on-a-Chip Performances: Recent Progress, Applications, and Future Perspective
Wongkaew N, Simsek M, Griesche C, Baeumner AJ |
| 195 - 230 |
Molecular Sensors for NMR-Based Detection
Xu ZC, Liu C, Zhao SJ, Chen S, Zhao YC |
| 231 - 292 |
The Optoelectronic Nose: Colorimetric and Fluorometric Sensor Arrays
Li Z, Askim JR, Suslick KS |
| 293 - 321 |
Highly Sensitive and Multiplexed Protein Measurements
Cohen L, Walt DR |
| 322 - 477 |
Supramolecular Luminescent Sensors
Mako TL, Racicot JM, Levine M |
| 478 - 598 |
Electrically-Transduced Chemical Sensors Based on Two Dimensional Nanomaterials
Meng Z, Stolz RM, Mendecki L, Mirica KA |
| 599 - 663 |
Carbon Nanotube Chemical Sensors
Schroeder V, Savagatrup S, He M, Ling SB, Swager TM |
| 664 - 699 |
Stabilization of Silver and Gold Nanoparticles: Preservation and Improvement of Plasmonic Functionalities
Kang H, Buchman JT, Rodriguez RS, Ring HL, He JY, Bantz KC, Haynes CL |
| 700 - 726 |
Impedance-Based Detection of Bacteria
Furst AL, Francis MB |
