Web of Science® Times Cited (Top 25, click here for full list): |
| A Hierarchy of Homodesmotic Reactions for Thermochemistry... | 103 |
9% |
| Substituent Effects in the Benzene Dimer are Due to Direct I... | 90 |
8% |
| Integration Grid Errors for Meta-GGA-Predicted Reaction Ener... | 80 |
7% |
| Substituent Effects in Cation/π Interactions and Electrosta... | 62 |
5% |
| Bifurcations on Potential Energy Surfaces of Organic Reactio... | 59 |
5% |
| Local Nature of Substituent Effects in Stacking Interactions... | 52 |
5% |
| Thermochemistry of Disputed Soot Formation Intermediates C | 48 |
4% |
| Through-Space Effects of Substituents Dominate Molecular Ele... | 48 |
4% |
| Probing Substituent Effects in Aryl-Aryl Interactions Using ... | 42 |
4% |
| Accurate Reaction Enthalpies and Sources of Error in DFT The... | 36 |
3% |
| Thermochemistry of Key Soot Formation Intermediates: C3H3 Is... | 35 |
3% |
| Dissociation Energies of Small Lithium Clusters (Lin) and Hy... | 32 |
3% |
| Microsolvation Effects on the Electron Capturing Ability of ... | 31 |
2% |
| Thinking Out of the Black Box: Accurate Barrier Heights of 1... | 28 |
2% |
| Ionization Thresholds of Small Carbon Clusters: Tunable VUV ... | 25 |
2% |
| Are Anion/π Interactions Actually a Case of Simple Charge... | 25 |
2% |
| Taking the Aromaticity out of Aromatic Interactions... | 23 |
2% |
| The Deprotonated Guanine-Cytosine Base Pair... | 20 |
1% | h-index = 18 |
|
| Origin of Substituent Effects in Edge-to-Face Aryl-Aryl Inte... | 18 |
1% |
| Substituent Effects on Non-Covalent Interactions with Aromat... | 18 |
1% |
| Thermochemistry of the HOSO Radical, a Key Intermediate in F... | 17 |
1% |
| Electron Affinities of the Radicals Derived from Cytosine... | 15 |
1% |
| Ionization Potentials of Small Lithium Clusters (Lin) and Hy... | 13 |
1% |
| Non-Covalent Interactions of a Benzo[a]pyrene Diol Epoxide w... | 13 |
1% |
| On the Nature of the Møller-Plesset Critical Point... | 9 |
0% |
CCQC/UGA
UCLA
TAMU |
| |
| Publications per year: |
| 2013 | 3 |
6% |
| 2012 | 11 |
22% |
| 2011 | 5 |
10% |
| 2010 | 4 |
8% |
| 2009 | 6 |
 12% |
| 2008 | 4 |
 8% |
| 2007 | 5 |
10% |
| 2006 | 4 |
8% |
| 2005 | 5 |
10% |
| 2004 | 3 |
6% |
CCQC/UGA
UCLA
TAMU |
| |
| Publications per Journal: |
| J. Phys. Chem. A | 13 |
   |
| J. Chem. Phys. | 9 |
 |
| J. Am. Chem. Soc. | 8 |
   |
| J. Chem. Theory Comput. | 5 |
  |
| Angew. Chem. Int. Ed. | 2 |
  |
| Proc. Natl. Acad. Sci. USA | 1 |
 |
| J. Phys. Chem. B | 1 |
 |
| Mol. Phys. | 1 |
 |
| WIREs Comput. Mol. Sci. | 1 |
 |
| Notices Amer. Math. Soc. | 1 |
 |
| ChemPhysChem | 1 |
 |
| Acc. Chem. Res. | 1 |
 |
| CrystEngComm | 1 |
 |
| Sci. Rep. | 1 |
 |
| Org. Lett. | 1 |
 |
| Phys. Chem. Chem. Phys. | 1 |
 |
| Dalton Trans. | 1 |
 |
| Chem. Commun. | 1 |
 |
CCQC/UGA
UCLA
TAMU |
| |
Co-authors: (Abbreviated list. Click here for full list) |
| H. F. Schaefer | 18 |
36% |
| K. N. Houk | 14 |
28% |
| W. D. Allen | 6 |
12% |
| J. W. G. Bloom | 6 |
12% |
| T. Lu | 4 |
8% |
| P. v. R. Schleyer | 3 |
6% |
| S. Kim | 3 |
6% |
| A. C. Simmonett | 3 |
6% |
| R. K. Raju | 3 |
6% |
| M. D. Wodrich | 2 |
4% |
| M. C. Lind | 2 |
4% |
| C. Corminboeuf | 2 |
4% |
| N. A. Richardson | 2 |
4% |
| A. J. McNeil | 2 |
4% |
| Y. Xie | 2 |
4% |
| M. A. Duncan | 2 |
4% |
| D. H. Ess | 2 |
4% |
| E. Munusamy | 2 |
4% |
| Y. An | 2 |
4% |
| R. Zhu | 2 |
4% |
| |