The Calorimetric Detection of Excited States.
- 1 May 1976
- journal article
- Published by National Institute of Standards and Technology (NIST) in Journal of Research of the National Bureau of Standards Section A: Physics and Chemistry
- Vol. 80 (3) , 413-419
- https://doi.org/10.6028/jres.080A.042
Abstract
Calorimetric techniques offer the photophysicist and photochemist the opportunity to measure a number of parameters of excited states which may be difficult to obtain by other techniques. The calorimetric strategy seeks to measure the heating of a sample resulting from radiationless decays or chemical reactions of excited states. Heating is best measured through volume and pressure transducers, and four calorimeters based on these are described. With calorimetric instrumentation one can perform measurements on samples in the gas, liquid and solid phases over a wide temperature range. Moreover time dependent processes with time constants ranging from microseconds to seconds are amenable to study. Examples of the application of calorimetric techniques to the determination of quantum yields of fluorescence, triplet formation and photochemistry are given.Keywords
This publication has 6 references indexed in Scilit:
- Optimal optoacoustic detector designApplied Optics, 1975
- Mercury contamination of sea water samples stored in polyethylene containersAnalytical Chemistry, 1975
- Spectroscopic Measurements of Stratospheric Nitric Oxide and Water VaporScience, 1974
- Fast changes of enthalpy and volume on flash excitation of Chromatium chromatophoresBiochimica et Biophysica Acta (BBA) - Bioenergetics, 1972
- CALORIMETRIC, PHOTOMETRIC AND LIFETIME DETERMINATIONS OF FLUORESCENCE YIELDS OF FLUORESCEIN DYES*Photochemistry and Photobiology, 1969
- The Laser Illuminated Absorptivity Spectrophone: A Method for Measurement of Weak Absorptivity in Gases at Laser WavelengthsApplied Optics, 1968