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Davidson played a key role in harnessing the power of this new technology and pioneered computational quantum chemistry, which uses computers to predict the behavior and properties of molecules. Computational quantum chemistry fundamentally transformed the field of chemistry. Not only can it complement empirical data gathered through chemical experiments, but in some cases, it can predict unobserved phenomena as well.
Davidson’s computational methods have allowed contemporary chemists to tackle problems that would have previously been far too complicated to solve, and have widespread applications for the development of new drugs and materials.
Davidson’s computational methods have allowed contemporary chemists to tackle problems that would have previously been far too complicated to solve, and have widespread applications for the development of new drugs and materials.
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论文共 582 篇作者统计合作学者相似作者
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Journal of mathematical chemistryno. 7 (2023): 1471-1476
Journal of chemical physics online/The Journal of chemical physics/Journal of chemical physicsno. 8 (2021)
JOURNAL OF CHEMICAL PHYSICSno. 5 (2021)
Authorea (Authorea) (2021)
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#Papers: 581
#Citation: 47573
H-Index: 98
G-Index: 200
Sociability: 7
Diversity: 0
Activity: 0
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