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The Journal of Chemical Physics
|
February 2, 2011
A tight binding model for water
A T Paxton, J J Kohanoff
Philosophical Transactions. Series A, Mathematical, Physical, and Engineering Sciences
|
June 14, 2017
The challenges of hydrogen and metals
A T Paxton, A P Sutton, M W Finnis
The Biochemical Journal
|
December 15, 1981
Energization of the transport systems for arabinose and comparison with galactose transport in Escherichia coli
K R Daruwalla, A T Paxton, P J Henderson
Journal of Microscopy
|
April 16, 2003
Bandstructure approach to near edge structure
A T Paxton, A J Craven, J M Gregg, et al.
The Journal of Chemical Physics
|
August 3, 2014
Universal tight binding model for chemical reactions in solution and at surfaces. I. Organic molecules
T J Sheppard, A Y Lozovoi, D L Pashov, et al.
The Journal of Chemical Physics
|
August 3, 2014
Universal tight binding model for chemical reactions in solution and at surfaces. II. Water
A Y Lozovoi, T J Sheppard, D L Pashov, et al.
The Journal of Chemical Physics
|
August 3, 2014
Universal tight binding model for chemical reactions in solution and at surfaces. III. Stoichiometric and reduced surfaces of titania and the adsorption of water
A Y Lozovoi, D L Pashov, T J Sheppard, et al.
Page
of 1
Search research articles
Search
Showing results (1-10 of 7) with videos related to
Sort By:
Page
of 1
The Journal of Chemical Physics
|
February 2, 2011
A tight binding model for water
A T Paxton, J J Kohanoff
Philosophical Transactions. Series A, Mathematical, Physical, and Engineering Sciences
|
June 14, 2017
The challenges of hydrogen and metals
A T Paxton, A P Sutton, M W Finnis
The Biochemical Journal
|
December 15, 1981
Energization of the transport systems for arabinose and comparison with galactose transport in Escherichia coli
K R Daruwalla, A T Paxton, P J Henderson
Journal of Microscopy
|
April 16, 2003
Bandstructure approach to near edge structure
A T Paxton, A J Craven, J M Gregg, et al.
The Journal of Chemical Physics
|
August 3, 2014
Universal tight binding model for chemical reactions in solution and at surfaces. I. Organic molecules
T J Sheppard, A Y Lozovoi, D L Pashov, et al.
The Journal of Chemical Physics
|
August 3, 2014
Universal tight binding model for chemical reactions in solution and at surfaces. II. Water
A Y Lozovoi, T J Sheppard, D L Pashov, et al.
The Journal of Chemical Physics
|
August 3, 2014
Universal tight binding model for chemical reactions in solution and at surfaces. III. Stoichiometric and reduced surfaces of titania and the adsorption of water
A Y Lozovoi, D L Pashov, T J Sheppard, et al.
Page
of 1