正规的买球平台:John A. McGuire


John A. McGuire    Associate Professor, PI
InstituteSchool of Physical Science and Technology
Research AreaUltrafast and nonlinear optical probes of condensed matter,optical properties of low-dimensional materials
Contact Info.jamcguire@@shanghaitech.edu.cn

2018 – present, Associate Professor, ShanghaiTech University, School of Physical Science and Technology
2009 – 2017 Assistant Professor, Michigan State University, Department of Physics and Astronomy
2006 – 2009 Postdoctoral Research Associate, Physical Chemistry and Applied Spectroscopy Group (Advisor: Victor I. Klimov)
2005 Postdoctoral Fellow, Lawrence Berkeley National Laboratory, Materials Sciences Division (Advisor: Yuen-Ron Shen)
2004 Ph.D. University of California, Berkeley, Department of Physics (Advisor: Yuen-Ron Shen)
1992 B.S. Stanford University, Physics and Biological Sciences

Research Interests
Nonequilibrium properties and dynamics of condensed phase systems
Optical properties of low-dimensional materials (e.g., semiconductor nanocrystals and quantum dots, layered materials)
Spin dynamics
Interfacial dynamics (e.g., the hydrogen bond network at water surfaces)

Selected Publications

1.    Y.H. Tang, M. Saniepay, C.J. Mi, R. Beaulac, and J.A. McGuire*, “Optical Stark Metrology of CdSe Nanocrystal Quantum Dots: Reconciling the Size-dependent Oscillator Strength with Theory,” arXiv:1703.00530.

2.    S.H. Xiao, F. Figge, G. Stirnemann, D. Laage*, and J.A. McGuire*, “Orientational Dynamics of Water at an Extended Hydrophobic Interface,” Journal of the American Chemical Society 138, 5551 (2016).

3.    Y.H. Tang, X. Wei, K.C. Mandal, J.A. McGuire*, and C.W. Lai*, “Exciton Spin Dynamics in GaSe,” Journal of Applied Physics118, 113103 (2015).

4.    C. Sun, F. Figge, I. Ozfidan, M. Korkusinski, , X. Yan, L.S. Li, P. Hawrylak*, and J.A. McGuire*, “Biexciton Binding of Dirac Fermions Confined in Colloidal Graphene Quantum Dots,” Nano Letters15, 5472 (2015).

5.   C. Sun, F. Figge, J.A. McGuire*, Q.Q. Li, and L.S. Li, “Biexciton Auger Recombination in Colloidal Graphene Quantum Dots,” Physical Review Letters113, 107401 (2014).