Publications
Since his retirement in 1997, Ted has published or submitted the following articles.
E.H.Battley, 2009, Is electronic equivalence between substrate and product preferable to C-mol equivalence in representations of microbial anabolism applicable to "origin of life" environmental conditions?, J. Theoret. Biol., submitted.
L.D.Hansen, R.S. Criddle, and E.H.Battley, 2009, Biological calorimetry and the thermodynamics of the origination and evolution of life., Pure Appl. Chem., in press.
Battley, E.H., 2007, The sources of thermal energy exchange accompanying microbial anabolism., J. Therm. Anal. Cal. 87: 105-111.
Battley, E.H., 2006, The sources of thermal energy exchange accompanying microbial catabolism., J. Theoret, Biol.241: 142-151.
Battley, E.H, 2003, Absorbed heat and heat of formation of dried microbial biomass. Studies on the thermodynamics of microbial growth., J. Therm. Anal. Cal., 74:709-721.
Battley, E.H, 2002, On the use of )Q° rather than T)S° in the calculation of )G° accompanying the oxidation or fermentation of catabolic substrates of biological importance in their standard states., Thermochimica Acta 394:313-327.
Battley, E., and Lamprecht, I., 2002. Biological Calorimetrist. Biography of Dr. Richard Kemp., Thermochimica Acta 394:1-3.
Battley, E.H. and J.R.Stone, 2000. On the inequality of )Q° and T)S° with respect to solid state organic substances of biological importance., Thermochimica Acta 360, 1-9.
Battley, E.H. and J.R.Stone, 2000. A comparison of values for the entropy and the entropy of formation of organic substances in the solid state, as determined experimentally or by empirical calculation., Thermochimica Acta 349, 153-161.
Battley, E.H. 1999. The Thermodynamics of Cellular Growth. In: Handbook of Thermal Analysis., P. Gallager (Ed.), Vol. 4, Life Sciences, Chapter 5., R.B.Kemp (Ed.), Elsevier, Amsterdam, pp. 219 - 266.
Battley, E.H., 1999. On entropy and absorbed thermal energy in biomass; a biologists perspective., Thermochimica Acta 331, 1-12.
Battley, E.H., 1999. An empirical method for estimating the entropy of formation and the absolute entropy of dried microbial biomass for use in studies on the thermodynamics of microbial growth., Thermochimica Acta 326, 7-15.
Battley, E.H., 1998. The development of direct and indirect methods for the study of the thermodynamics of microbial growth. Thermochimica Acta 309, 17-37.
Battley, E.H., 1998. Augustin Pierre Dubrunfaut. Thermochimica Acta 308, 1-3.
Battley, E.H., R.L.Putnam, and J. Boerio-Goates, 1997. Heat capacity measurements from 10 to 300 K and derived thermodynamic functions of lyophilized cells of Saccharomyces cerevisiae including the absolute entropy and the entropy of formation at 298.15 K., Thermochimica Acta 298, 37-46.
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