Robert L. Whetten, Ph.D.
Affiliations: | Chemistry | Georgia Institute of Technology, Atlanta, GA |
Area:
Optics and PhotonicsWebsite:
http://www.chemistry.gatech.edu/faculty/Whetten/Google:
"Robert Whetten"Mean distance: 8.46 | S | N | B | C | P |
Parents
Sign in to add mentor| Edward R. Grant | grad student | 1980-1984 | Cornell | |
| (Nonadiabatic bound states of isolated molecules) | ||||
Children
Sign in to add trainee| Eric C. Honea | grad student | 1990 | UCLA |
| Kenneth E. Schriver | grad student | 1990 | UCLA |
| Joseph T. Khoury | grad student | 1999 | UCLA |
| Terry P. Bigioni | grad student | 2000 | Georgia Tech |
| Clarence M. Buford | grad student | 2003 | Georgia Tech |
| William T. Wallace | grad student | 1999-2003 | Georgia Tech |
| Richard B. Wyrwas | grad student | 1999-2004 | Georgia Tech |
| Melissa G. Arredondo | grad student | 2006 | Georgia Tech |
| Ryan C. Price | grad student | 2006 | Georgia Tech |
| James A. Bradshaw | grad student | 2008 | Georgia Tech |
| M. Mozammel Hoque | grad student | 2015-2019 | UT San Antonio |
| M Samy El-Shall | post-doc | 1986-1988 | UCLA |
BETA: Related publications
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Publications
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| Sinha-Roy R, López-Lozano X, Whetten RL, et al. (2021) Crucial Role of Conjugation in Monolayer-Protected Metal Clusters with Aromatic Ligands: Insights from the Archetypal AuL Cluster Compounds. The Journal of Physical Chemistry Letters. 9262-9268 |
| Black DM, Hoque MM, Placencia-Villa G, et al. (2019) New Evidence of the Bidentate Binding Mode in 3-MBA Protected Gold Clusters: Analysis of Aqueous 13-18 kDa Gold-Thiolate Clusters by HPLC-ESI-MS Reveals Special Compositions Au(3-MBA), ( = 48-67, = 26-30). Nanomaterials (Basel, Switzerland). 9 |
| Hoque MM, Mayer KM, Ponce A, et al. (2019) Toward smaller aqueous-phase plasmonic gold nanoparticles: High-stability thiolate-protected ~ 4.5 nm cores. Langmuir : the Acs Journal of Surfaces and Colloids |
| Hoque MM, Black DM, Mayer KM, et al. (2019) The Base Side of Noble Metal Clusters: Efficient Route to Captamino-Gold, Au(-S(CH)N(CH)), n = 25 - 144. The Journal of Physical Chemistry Letters |
| Hoque MM, Dass A, Mayer KM, et al. (2019) Protein-Like Large Gold Clusters Based on the ω-Aminothiolate DMAET: Precision Thermal and Reaction Control Leading to Selective Formation of Cationic Gold Clusters in the Critical Size Range, n = 130–144 Gold Atoms The Journal of Physical Chemistry C. 123: 14871-14879 |
| Reina M, Wallace WT, Wyrwas RB, et al. (2019) Binding of multiple SO 2 molecules to small gold cluster anions (Au N − , Au N OH − , N = 1‐8) International Journal of Quantum Chemistry. 119 |
| Lopez P, Lara HH, Mullins SM, et al. (2018) Tetrahedral () Closed-Shell Cluster of 29 Silver Atoms & 12 Lipoate Ligands, [Ag(R-α-LA)]: Antibacterial and Antifungal Activity. Acs Applied Nano Materials. 1: 1595-1602 |
| Kumara C, Hoque MM, Zuo X, et al. (2018) Isolation of a 300-kDa, Au Gold Compound, the Standard 3.6-nm Capstone to a Series of Plasmonic Nanocrystals Protected by Aliphatic-Like-Thiolates. The Journal of Physical Chemistry Letters |
| Black DM, Robles G, Bach SBH, et al. (2018) Gold Nanocluster Prospecting via Capillary Liquid Chromatography-Mass Spectrometry: Discovery of Three Quantized Gold Clusters in a Product Mixture of “2 nm Gold Nanoparticles” Industrial & Engineering Chemistry Research. 57: 5378-5384 |
| López-Lozano X, Plascencia-Villa G, Calero G, et al. (2017) Is the largest aqueous gold cluster a superatom complex? Electronic structure & optical response of the structurally determined Au146(p-MBA)57. Nanoscale. 9: 18629-18634 |