From man to mouse to cell … and back again

The molar excess heat capacity C E p,m of (1 -x)H 2 O + xHOCH 2 CH 2 OH has been measured in the temperature range from 273.15 K to 373.15 K at 5 K intervals. The C E p,m values are negative and positive at all compositions between temperatures of (273.15, 283.15, 333.15 and 373.15) K, respectively.

Measurements of ( p, ρ, T ) for {xCH 3 OH + (1x)H 2 O} with x = (1.0000 and 0.4993) at specified temperatures and pressures in the compressed liquid phase were carried out with a metal-bellows variable volumometer along six isotherms between T = 320 K and T = 420 K at pressures from the bubble point

Excess molar enthalpies H E m and excess molar volumes V E m were determined at the temperature 298.15 K for 21 binary mixtures of three propyl esters (ethanoate, propanoate, and butanoate) and seven odd n-alkanes (pentane to heptadecane). All the mixtures exhibited endothermic enthalpies which decr

Compounds K 2 W n O 3n+1 (n = 2, 3, 4) were synthesized using a pyrometallurgical technique. The products were characterized by X-ray diffraction analysis and found to be single-phase compounds. The enthalpy increments T 273.15 K H o m of each compound were measured by a drop method using a high-tem

The heat capacity of germanium diselenide GeSe 2 has been determined by adiabatic calorimetry at temperatures from (13 to 900) K. A phase transition not previously reported gives rise to a sharp λ-type heat capacity effect at T = 423 K. The overall estimated enthalpy of transition amounts to 1240 J•