Christoph G. Salzmann
Christoph G. Salzmann
Professor of Physical and Materials Chemistry, University College London
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Mechanical reinforcement and thermal conductivity in expanded graphene nanoplatelets reinforced epoxy composites
S Chatterjee, JW Wang, WS Kuo, NH Tai, C Salzmann, WL Li, R Hollertz, ...
Chemical Physics Letters 531, 6-10, 2012
A second distinct structural “state” of high-density amorphous ice at 77 K and 1 bar
T Loerting, C Salzmann, I Kohl, E Mayer, A Hallbrucker
Physical Chemistry Chemical Physics 3 (24), 5355-5357, 2001
The Role of Carboxylated Carbonaceous Fragments in the Functionalization and Spectroscopy of a Single‐Walled Carbon‐Nanotube Material
CG Salzmann, SA Llewellyn, G Tobias, MAH Ward, Y Huh, MLH Green
Advanced Materials 19 (6), 883-887, 2007
Ice XV: A new thermodynamically stable phase of ice
CG Salzmann, PG Radaelli, E Mayer, JL Finney
Physical review letters 103 (10), 105701, 2009
The preparation and structures of hydrogen ordered phases of ice
CG Salzmann, PG Radaelli, A Hallbrucker, E Mayer, JL Finney
Science 311 (5768), 1758-1761, 2006
Structure of ice crystallized from supercooled water
TL Malkin, BJ Murray, AV Brukhno, J Anwar, CG Salzmann
Proceedings of the National Academy of Sciences 109 (4), 1041-1045, 2012
The polymorphism of ice: five unresolved questions
CG Salzmann, PG Radaelli, B Slater, JL Finney
Physical Chemistry Chemical Physics 13 (41), 18468-18480, 2011
Stacking disorder in ice I
TL Malkin, BJ Murray, CG Salzmann, V Molinero, SJ Pickering, TF Whale
Physical Chemistry Chemical Physics 17 (1), 60-76, 2015
How many amorphous ices are there?
T Loerting, K Winkel, M Seidl, M Bauer, C Mitterdorfer, PH Handle, ...
Physical Chemistry Chemical Physics 13 (19), 8783-8794, 2011
Two dimensional ice from first principles: Structures and phase transitions
J Chen, G Schusteritsch, CJ Pickard, CG Salzmann, A Michaelides
Physical review letters 116 (2), 025501, 2016
Purification and opening of carbon nanotubes using steam
G Tobias, L Shao, CG Salzmann, Y Huh, MLH Green
The Journal of Physical Chemistry B 110 (45), 22318-22322, 2006
Removal of amorphous carbon for the efficient sidewall functionalisation of single-walled carbon nanotubes
L Shao, G Tobias, CG Salzmann, B Ballesteros, SY Hong, A Crossley, ...
Chemical Communications, 5090-5092, 2007
Advances in the experimental exploration of water’s phase diagram
CG Salzmann
The Journal of Chemical Physics 150 (6), 060901, 2019
α, ω-Diferrocenyl cumulene molecular wires. Synthesis, spectroscopy, structure, and electrochemistry
W Skibar, H Kopacka, K Wurst, C Salzmann, KH Ongania, ...
Organometallics 23 (5), 1024-1041, 2004
Amorphous ice: Stepwise formation of very-high-density amorphous ice from low-density amorphous ice at 125 K
T Loerting, W Schustereder, K Winkel, CG Salzmann, I Kohl, E Mayer
Physical review letters 96 (2), 025702, 2006
Quantitative assessment of carbon nanotube dispersions by Raman spectroscopy
CG Salzmann, BTT Chu, G Tobias, SA Llewellyn, MLH Green
Carbon 45 (5), 907-912, 2007
The low-temperature dynamics of recovered ice XII as studied by differential scanning calorimetry: a comparison with ice V
CG Salzmann, I Kohl, T Loerting, E Mayer, A Hallbrucker
Physical Chemistry Chemical Physics 5 (16), 3507-3517, 2003
Isobaric annealing of high-density amorphous ice between 0.3 and 1.9 GPa: in situ density values and structural changes
CG Salzmann, T Loerting, S Klotz, PW Mirwald, A Hallbrucker, E Mayer
Physical Chemistry Chemical Physics 8 (3), 386-397, 2006
Proton ordering in cubic ice and hexagonal ice; a potential new ice phase—XIc
Z Raza, D Alfe, CG Salzmann, J Klimeš, A Michaelides, B Slater
Physical Chemistry Chemical Physics 13 (44), 19788-19795, 2011
Effect of heating rate and pressure on the crystallization kinetics of high-density amorphous ice on isobaric heating between 0.2 and 1.9 GPa
CG Salzmann, E Mayer, A Hallbrucker
Physical Chemistry Chemical Physics 6 (22), 5156-5165, 2004
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