个人简介

NSF CAREER Award (2002-2008) The Camille and Henry Dreyfus New Faculty Awards (1999-2004) Appointed to faculty, UC Davis (1999) Postdoctoral research chemist, UC San Diego (1995-1999) Weiser award for excellence in chemistry research, Rice University (1995) Ph.D., Rice University (1995) B.S., Huazhong University of Science and Technology, China (1984)

研究领域

Analytical Chemistry/Biophysical Chemistry/Chemical Biology/Environmental Chemistry/Materials Chemistry/Physical Chemistry

Professor Ting Guo's research group at UC Davis focuses on studying the mechanisms and control of energy exchanges between nanomaterials and between nanomaterials and their environment. The forms of energy include chemical energy, visible photon energy, and especially x-ray photon energy. Nanomaterials can be uniquely used to harvest these forms of energy and redirect them to facilitate chemical reactions including catalytic reactions and radical reactions in aqueous solution, and to cause changes such as electric field and temperature. Most of these energy redirection and control processes can be made to occur with nanometer precision. Currently we are investigating catalysis involving carbon dioxide using very small nickel and platinum nanoparticles with and without substrates, ultrafast processes in nanomaterials, and enhanced x-ray radiation absorption, energy deposition, and chemical manipulation using networks of nanometer sized gold nanoparticles. Studying these three interconnected areas enables us to achieve a more complete understanding and nonlinear growth of knowledge within each subject.

近期论文

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Lee, Changju, R. Andrew Davidson and Ting Guo, Investigation of Magnetic Field Manipulated Electrons Produced from Laser-Driven Ultrafast X-ray Sources using X-ray Emission Spectroscopy. J. Phys. D: Appl. Phys., 48. 105202 (2015). Anderson D S, E S Patchin, R M Silva, D L Uyeminami, A Sharmah, T Guo, G K Das, J M Brown, J Shannahan, T Gordon, L C Chen, K E Pinkerton, and L S Van Winkle, . Influence of Particle Size on Persistence and Clearance of Aerosolized Silver Nanoparticles in the Rat Lung. Toxicological Sciences, Accepted. (2015). 2014 Publications Guo, Yu, Davidson, R. Andrew, Peck, Kristin and Guo, Ting. Encapsulation of Multiple Large Spherical Silica Nanoparticles in Hollow Spherical Silica Shells. JCIS, 445. 112-118 (2015). Published online Dec. 2014. Davidson, R., Anderson, D., Van Winkle, L., Pinkerton, K., and Guo, T., Evolution of Silver Nanoparticles in the Rat Lung Investigated by X-ray Absorption Spectroscopy. J. Phys. Chem. A , 119. 281-289 (2015). Published online on December 16, 2014. R. Andrew Davidson and T. Guo, Average Physical Enhancement by Nanomaterials under X-ray Irradiation, J. Phys. Chem. C , 118. 30221-30228. (2014). Anderson, D. S.; Silva, R. G.; Lee, D.; Edwards, P. C.; Sharmah, A.; Guo, T.; Pinkerton, K. E.; Van Winkle, L. S. Persistence of Silver Nanoparticles in the Rat Lung: Influence of Dose, Size and Chemical Composition, Nanotoxicology, 18. 1-12. (2014). R. Andrew Davidson, Chad Sugiyama and T. Guo, Determination of Absolute Quantum Efficiency of X-ray Nano Phosphors by Thin Film Photovoltaic Cells, Analytical Chem., 86, 10492-10496. (2014). 2013 Publications Starkewolf, Z.B., L. Miyachi, J. Wong and T. Guo, X-ray Triggered Release of Doxorubicin from Nanoparticle Drug Carriers for Cancer Therapy, Chem. Comm., 49, 2545-2547. (2013). 2012 Publications R. Andrew Davidson and T. Guo, An Example of X-ray Nanochemistry: SERS Investigation of Polymerization Enhanced by Nanostructures under X-ray Irradiation, J. Phys. Chem. Lett., 3, 3271-3275 (2012). Carter, J.D., N.N. Cheng, Y. Qu, G.D. Suarez and T. Guo, Enhanced Single Strand Breaks of Supercoiled DNA in a Matrix of Gold Nanotubes under X-ray Irradiation, JCIS , 378 (1) pp 70-76 (2012). Lee, C., Cheng, N.N., R.A. Davidson and T. Guo, Geometry Enhancement of Nanoscale Energy Deposition by X-rays, JPC/C, DOI: 10.1021/jp210301q, 116, 11292-11297 (Cover Story, May 20 issue) (2012). Neal N. Cheng, Zane Starkewolf, R. Andrew Davidson, Arjun Sharmah, Changju Lee, Jennifer Lien, and Ting Guo, Chemical Enhancement by Nanomaterials under X-ray Irradiation, JACS (Communication) , 134 (4), pp 1950-1953 (2012). Publications Yongquan Qu, Jingwei Bai, Lei Liao, Rui Cheng, Yung-Chen Lin, Yu Huang, Ting Guo and Xiangfeng Duan, Chem. Commun.,47, 1255-1257 (2011). Madl, Amy; Teague, Stephen; Qu, Yongquan; Masiel, Daniel; Evans, James; Guo, Ting; and Pinkerton, Kent, Aerosolization System for Experimental Inhalation Studies of Carbon-Based Nanomaterials, Aerosol Science & Technology, 46: 94-107 (2012) (Available online Sep. 28, 2011). Masiel, D., B.W. Reed, T.B. Lagrange, G.H. Campbell, T. Guo, and N. Browning. Time-Resolved Annular Field Imaging of Catalyst Nanoparticles, Chem. Phys. Chem., (Commun) 11, 2088-2090 (2010). Qu, Y., Sutherland, A.M., J. Lien, G.D. Suarez, and T. Guo; Probing Site Activity of Monodisperse Pt Nanoparticles using Steam Reforming of Methane, Journal of Physical Chemistry Letters, 1, 254-259 (2010). Guo, T.; More Power to X-rays: New Developments in X-ray Spectroscopy, Laser & Photonics Reviews, 3, 591-622 (2009). Qu, Y., J. Lien, and T. Guo; Synthesis of Symmetric and Asymmetric Nanosilica for Materials, Optical and Medical Applications,Nanomaterials for Life Sciences Vol.2: Nanostructured Oxides, 55-78 (2009). Qu, Y., A.M.Sutherland and T. Guo; Carbon Dioxide Reforming of Methane by Ni/Co Nanoparticle Catalysts Immobilized on Single-Walled Carbon Nanotubes, Energy & Fuels, 22(4) 2183-2187 (2008). Qu, Y., D.J. Masiel , N.N. Cheng, A.M.Sutherland, J.D. Carter, N.D. Browning, and T. Guo; Recognition of Melting of Nanoparticle Catalysts with Cubically Shaped Co3O4 Nanoparticles, Journal of Colloid and Interface Science, 321 251 (2008).