Optical chemical sensors for environmental control and system management

Abstract

Several fiber optic based chemical sensors have been developed for use in plant growth systems and enclosed life support systems. Optical chemical sensors offer several distinct advantages in terms of sensitivity, calibration stability, immunity to biofouling and electrical interference, and ease of multiplexing sensors for multipoint/multiparameter analysis. Also, the ability to locate fiber optic sensors in close proximity to plant roots or leaves should improve the measurement reliability by obviating the need for handling and transport which can compromise sample integrity. Polestar Technologies and GEO-CENTERS have developed and tested many types of optical chemical sensors which utilize novel glass and polymeric materials as the sensor substrate. Analytes are detected using immobilized colorimetric indication systems or molecular recognition elements. Typically transduction is via wavelength specific absorption changes with multiwavelength detection for drift compensation. Sensors have been developed for solution pH, NH 3, ethylene, CO 2, and dissolved metal ions. In addition, unique PC-compatible optoelectronic interfaces, as well as distributed measurement systems, so that integrated detection systems are now available. In this paper recent efforts to develop sensors for critical nutrient ions are presented.