Generating Sensor Diversity through Combinatorial Polymer Synthesis
- 1 September 1997
- journal article
- research article
- Published by American Chemical Society (ACS) in Analytical Chemistry
- Vol. 69 (17), 3413-3418
- https://doi.org/10.1021/ac970501b
Abstract
A new approach for rapid, simple generation of uniquely responding sensors for use in polymer-based sensor arrays has been developed. Polymerization reactions between different combinations of two starting materials have been found to lead to many new, unique sensors with responses not simply related to the proportion of the starting materials. This approach is demonstrated in two ways: (a) the use of discrete polymer sensing cones each comprised of a specific monomer combination and (b) the fabrication of a gradient sensor, containing all combinations between the starting and ending monomer concentrations. Gradient sensors were fabricated using two different binary monomer systems, with both systems showing regions of broadly diverse fluorescence responses to organic vapor pulses.Keywords
This publication has 17 references indexed in Scilit:
- A chemical-detecting system based on a cross-reactive optical sensor arrayNature, 1996
- Rapid Analyte Recognition in a Device Based on Optical Sensors and the Olfactory SystemAnalytical Chemistry, 1996
- Glycosamino Acids: New Building Blocks for Combinatorial SynthesisJournal of the American Chemical Society, 1996
- Strategy and Tactics in Combinatorial Organic Synthesis. Applications to Drug DiscoveryAccounts of Chemical Research, 1996
- Selective Vapor Sorption by Polymers and Cavitands on Acoustic Wave Sensors: Is This Molecular Recognition?Analytical Chemistry, 1996
- Array-Based Vapor Sensing Using Chemically Sensitive, Carbon Black−Polymer ResistorsChemistry of Materials, 1996
- Improved fiber-optic chemical sensor for penicillinAnalytical Chemistry, 1995
- A fibre-optic chemical sensor with discrete sensing sitesNature, 1991
- Fiber-optic organic vapor sensorEnvironmental Science & Technology, 1991
- Chemical piezoelectric sensor and sensor array characterizationAnalytical Chemistry, 1986