Computational study on the relative acidity of acetic acid by the qm/mm method combined with the theory of energy representation
Publication
, Journal Article
Hori, T; Takahashi, H; Furukawa, SI; Nakano, M; Yang, W
Published in: Journal of Physical Chemistry B
2007
Duke Scholars
Published In
Journal of Physical Chemistry B
Publication Date
2007
Issue
111
Start / End Page
581 / 588
Related Subject Headings
- Water
- Thermodynamics
- Solutions
- Protons
- Models, Molecular
- Kinetics
- Hydrogen-Ion Concentration
- Energy Transfer
- Computer Simulation
- Algorithms
Citation
APA
Chicago
ICMJE
MLA
NLM
Hori, T., Takahashi, H., Furukawa, S. I., Nakano, M., & Yang, W. (2007). Computational study on the relative acidity of acetic acid by the qm/mm method combined with the theory of energy representation. Journal of Physical Chemistry B, (111), 581–588.
Hori, T., H. Takahashi, S. I. Furukawa, M. Nakano, and W. Yang. “Computational study on the relative acidity of acetic acid by the qm/mm method combined with the theory of energy representation.” Journal of Physical Chemistry B, no. 111 (2007): 581–88.
Hori T, Takahashi H, Furukawa SI, Nakano M, Yang W. Computational study on the relative acidity of acetic acid by the qm/mm method combined with the theory of energy representation. Journal of Physical Chemistry B. 2007;(111):581–8.
Hori, T., et al. “Computational study on the relative acidity of acetic acid by the qm/mm method combined with the theory of energy representation.” Journal of Physical Chemistry B, no. 111, 2007, pp. 581–88.
Hori T, Takahashi H, Furukawa SI, Nakano M, Yang W. Computational study on the relative acidity of acetic acid by the qm/mm method combined with the theory of energy representation. Journal of Physical Chemistry B. 2007;(111):581–588.
Published In
Journal of Physical Chemistry B
Publication Date
2007
Issue
111
Start / End Page
581 / 588
Related Subject Headings
- Water
- Thermodynamics
- Solutions
- Protons
- Models, Molecular
- Kinetics
- Hydrogen-Ion Concentration
- Energy Transfer
- Computer Simulation
- Algorithms