| 1 - 1 |
Publisher's note
[Anonymous] |
| 2 - 3 |
Curriculum vitae of Wolfgang Hemminger
Hohne GWH |
| 4 - 10 |
A thermographic promenade through the Berlin botanic garden
Lamprecht I, Maierhofer C, Rollig M |
| 11 - 19 |
Simultaneous photocalorimetric and oxygen polarographic measurements on Dunaliella maritima cells reveal a thermal discrepancy that could be due to nonphotochemical quenching
Mukhanov VS, Kemp RB |
| 20 - 28 |
Size relationship of metabolic rate: Oxygen availability as the "missing link" between structure and function?
Singer D |
| 29 - 32 |
DSC studies on organic melting point temperature standards
Charsley EL, Laye PG, Palakollu V, Rooney JJ, Joseph B |
| 33 - 35 |
Redetermination of the thermodynamic properties of the solid-solid transition of adamantane by adiabatic calorimetry to investigate the suitability as a reference material for low-temperature DSC-calibration
van Ekeren PJ, van Genderen ACG, van den Berg GJK |
| 36 - 40 |
4,4'-Azoxyanisole for temperature calibration of differential scanning calorimeters in the cooling mode - Yes or no?
Cammenga HK, Gehrich K, Sarge SM |
| 41 - 54 |
High-speed/high performance differential scanning calorimetry (HPer DSC): Temperature calibration in the heating and cooling mode and minimization of thermal lag
Poel GV, Mathot VBF |
| 55 - 65 |
Verifying the symmetry of differential scanning calorimeters concerning heating and cooling using liquid crystal secondary temperature standards
Neuenfeld S, Schick C |
| 66 - 72 |
High pressure differential scanning calorimetry: Aspects of calibration
Ledru J, Imrie CT, Hutchinson JM, Hohne GWH |
| 73 - 83 |
High pressure-low temperature calorimetry - I. Application to the phase change of mercury under pressure
Dan F, Grofer JPE |
| 84 - 90 |
Applications of PulseTA (R) to the investigation of fluorides - An attempt to calibrate HF
Feist M, Kemnitz E |
| 91 - 100 |
The thermal decomposition of copper(II) oxalate revisited
Lamprecht E, Watkins GM, Brown ME |
| 101 - 105 |
Synthesis, structural characterization and thermochemical reactivity of tris(ethylenediamine)zinc tetracyanozincate, a precursor for nanoscale ZnO
Guo YZ, Weiss R, Boese R, Epple M |
| 106 - 112 |
High temperature mass spectrometric gas-release studies of kaolinite Al-2[Si2O5(OH)(4)] decomposition
Heide K, Foldvari M |
| 113 - 116 |
Formation of N2O during thermal decomposition of d-metal hydrates nitrates
Malecki A, Malecka B |
| 117 - 120 |
Absorption effects of carbon tetrachloride on the structural and thermodynamic properties of copper(II) trans-1,4-cyclohexanedicarboxylate
Inoue M, Kawaji H, Tojo T, Atake T |
| 121 - 127 |
Crystal growth kinetics in (GeS2)(0.2)(Sb2S3)(0.8) glass
Svadlak D, Pustkova P, Kostal P, Malek J |
| 128 - 134 |
The glass transition of polymer crystals
Wunderlich B |
| 135 - 139 |
Heat capacity of vitreous and crystalline GeSe2 from 2 to 25 K by relaxation calorimetry
Stolen S, Sondena R |
| 140 - 146 |
Activation energies derived from the pre-glass transition annealing peaks
Vyazovkin S, Dranca I |
| 147 - 155 |
Stochastic temperature modulation: A new technique in temperature-modulated DSC
Schawe JEK, Hutter T, Heitz C, Alig I, Lellinger D |
| 156 - 160 |
Modulated temperature calorimetry of silver iodide in the presence of microwave radiation
Binner JGP, Price DM, Reading M, Vaidhyanathan B |
| 161 - 167 |
Batch calorimetry with solids, liquids and gases in less than 1 mL total volume
Russell DJ, Thomas D, Hansen LD |
| 168 - 175 |
Chip calorimeters for the investigation of liquid phase reactions: Design rules
Lerchner J, Wolf A, Wolf G, Fernandez I |
| 176 - 179 |
Heat capacity per unit volume
Hatta I |
