Rong Zhang
Time: 2022-03-23  Author:   Hits: 157

EmailRong.zhang@rytrum.com


Highlights

Selected for National Major Talent Introduction Project, National Distinguished Expert, Chairman of Rytrum Technology (Zhuhai) Ltd., Visiting Professor of the Ministry of Science and Technology China-Portugal Cultural Heritage Conservation Science 'Belt and Road' Joint Laboratory.


Research Areas  

Chemical physics, material analysis, high-end instruments and equipment R&D


Education

1985.6–1990.2 Stanford University, USA, Chemical Physics, Ph.D., Supervisor: R.N.Zare

1982.8–1985.4 Dalian Institute of Chemical Physics, CAS, Master, Supervisor: Lou Nanquan

1978.3–1982.7 Harbin Engineering University, Mathematics/Physics, bachelor with double majors


 Working experiences

1990–1992 Visiting scientist, IBM Almaden Lab, USA

1992–1993 Postdoctoral Fellow, Stanford International Research Institute (SRI), California, USA

1993–1994 Postdoctoral Fellow, Stanford University, USA

1994–1997 Senior Scientist, Thermo-Fisher Scientific, USA

1997–2000 Senior EngineerKLA-TencorUnited States

2000–2002 Senior Scientist, Optimight Communication Inc.USA

2002–2009 Senior R&D Manager, Huawei Tech Research USA

2009–2013 Vice President, Ecube Energy Technology (Shanghai) Ltd.

In 2012, he was selected as the specially-appointed National Distinguished Expert

20112014 President, BlueLagoon Energy Technology (Shanghai) Ltd.

20152017 President/CTO, Rytrum Technology (Dalian) Ltd.

2017-present Chairman, Rytrum Technology (Zhuhai) Ltd.

 

Major Publications

1.  R. Zhang and D.R. Crosley, “Determination of electronic quenching rate from NO A 2+ v=0 state at the temperature range of 200 to 300 K with collision partner of NO, O2, CO2, NH3, H2S, and H2O,” J. Chem. Phys. 102, 7418 (1995). 25

2.  L. Fang, R. Zhang, Evan R. Williams, and R.N. Zare, On-line Time-of-Flight Mass Spectrometric Analysis of Peptides Separated by Capillary Electrophoresis, Analytical Chemistry 66, 3696 - 3701 (1994). 101

3.  P.B. Comita, E. Jay, R. Zhang, and W. Jacob, “Laser-induced coalescence of gold clusters in fluorocarbon composite thin film”, invited paper, Applied Surface Science, 80,196 (1994). 0

4.  P. Comita, W. Jacob, E. Kay, and R. Zhang, “A New Technique for Laser-Induced Metallization: Laser Coalescence of Gold Clusters in Gold-Fluorocarbon Composite Film 0s,” Proceedings of the Society of Photo-Optical Instrumentation Engineers, 1804,154 (1993). 0

5.  P.B. Comita, W. Jacob, E. Jay, and R. Zhang, Laser-Induced Coalescence of Gold Clusters in Gold Fluorocarbon Polymer Composite Films, Chapter 20 in Laser Chemistry of Organometallics, ed. J. Chaiken, ACS Symposium Series 530, pp. 279 (ACS, Washington, DC., 1993). 0

6.  R. Zhang and R.L. Jackson, Buffer-Gas Quenching as a Dynamical Probe of Organometallic Photodissociation Processes, Chapter 10 in Laser Chemistry of Organometallics, ed. J. Chaiken, ACS Symposium Series 530, pp.122 (ACS, Washington, DC., 1993). 0

7.  R. Zhang and P.B. Comita, Deposition of Platinum From Pt(PF3)4 on Atomically Clean Platinum Surfaces, Chem. Phys. Lett. 115, 142 (1992). 5

8.  P. Comita, W. Jacob, E. Kay, and R. Zhang, “Laser-Induced Coalescence of Gold Clusters in Au-PPTFE Composite Films,” Proceedings of the Laser Advanced Materials Processing Conference, 2, 1215-1220 (1992). 0

9.  P. Comita, W. Jacob, E. Kay, and R. Zhang, “Laser Drawn Gold Lines on Fluoropolymer Films,” Summary of research in Advanced Coatings and Surface Technology, Vo.l 5, 8 (1992). 0

10.H-G. Rubahn, W.J. van der Zande, R. Zhang, M.J. Bronikowski, and R.N. Zare, Fine-structure Population Distribution of O(3Pj) from the Reaction of H + O2 -> OH + O and the Photolysis of NO2 + h -> NO + O, Chem. Phys. Lett. 186, 154 (1991). 45

11.R. Zhang, W.J. van der Zande, M.J. Bronikowski, and R.N. Zare, Experimental Investigations of State to State Reaction Dynamics on O(3P) + HCl(v=2,J=1-9) System, J. Chem. Phys. 94, 2704 (1991). 70

12.W.J. van der Zande, R. Zhang, R.N. Zare, K.G. McKendrick, and J.J. Valentini, Superthermal Widths of the Collision Energy Distributions in Hot Atom Reactions, J. Phys. Chem. 95, 8205 (1991). 105

13.R. Huang, R. Zhang, and R.N. Zare, Nature of the red emission in the chemical oxygen iodine laser system, Chem. Phys. Lett. 170, 437 (1990). 15

14.W.J. van der Zande, R. Zhang and R.N. Zare, Collisional Energy Spread Caused by Thermal Motions of the Reagents, in Spectral Line Shapes, Vol. 6, 301, ed. L. Frommhold and J. W. Keto, (American Institute of Physics, New York, 1990).

15.K.G. McKendrick, D.J. Rakestraw, R. Zhang, and R.N. Zare, Effect of alignment in O(3P) + HCl (v=2, J) reaction, J. Chem. Soc. Faraday Trans. II, 85, 1255 (1989).

16.M.J. Bronikowski, R. Zhang, D.J. Rakestraw, and R.N. Zare, Reaction Dynamics of H + O2 at 1.6 eV Collision Energy, Chem. Phys. Lett. 156, 7 (1989). 59

17.K.G. McKendrick, D.J. Rakestraw, R. Zhang, and R.N. Zare, Dynamics of the Reaction O(3P) + HBr: Experimental Investigation and Theoretical Modeling, J. Phys. Chem. 92, 5530 (1988). 59

18.R. Zhang, D.J. Rakestraw, K.G. McKendrick, and R.N. Zare, Comparison of the Ca + HF(DF) and Sr + HF(DF) Reaction Dynamics, J. Chem. Phys. 89, 6283 (1988). 50

 

Patents granted

1Granted by USPTO

1.  United States Patent 7,542,685, “System and method for automatic chromatic dispersion compensation”

2.  United States Patent 8,238,757, “Method and Apparatus for Generating Optical Duobinary Signals with Enhanced Receiver Sensitivity and Spectral Efficiency”

3.United States Patent 8,955,320, “METHODS AND APPARATUS FOR LATENT HEAT (PHASE CHANGE) THERMAL STORAGE AND ASSOCATED HEAT TRANSFER AND EXCHANGE”

4.United States Patent 9,091,469, “APPARATUS AND METHOD FOR VAPOR DRIVEN ABSORPTION HEAT PUMIPS AND ABSORPTION HEAT TRANSFORMER WITH APPLICATIONS”

5.United States Patent 9,820,032, “Speaker system for high fidelity reproduction of audio signals”

 

2USPTO and PCT application submitted

1.   20130240188METHOD AND APPARATUS FOR A DELAYED AND PROLONGED AIR COOLING CONDENSATION SYSTEM

2.   20110120673, SYSTEMS AND METHODS OF THERMAL TRANSFER AND/OR STORAGE

3.   20110005516, SOLAR COLLECTOR

4.   20100242475, Systems and Methods of Thermal-Electric Power Generation Including Latent Heat Utilization Features

3.  20100206295SYSTEMS AND METHODS OF SOLAR THERMAL CONCENTRATION FOR 2-DIMENSIONAL FOCUSING CONCENTRATORS INCLUDING FEATURES OF SEQUENTIAL HEATING, THERMAL LOSS REDUCTION, AND/OR ADJUSTMENT OF OPERATION OR OPERATING PARAMETERS

 

Major R&D Projects involved and lead

1.  2021-present, development of cold cathode X-ray tomography equipment, 50 million yuan

2.  2017-present, R&D and manufacturing of portable linear ion trap mass spectrometer, 10 million yuan

3.  2015-present, vacuum ultraviolet photoionization ion mobility spectrometry trace detection technology and equipment, 30 million yuan

4.  2010-2013, High temperature phase change heat transfer and phase change heat storage technology and equipment, 3 million yuan

5.  2009-2013, Yikebo Hainan Sanya 1 MW Focused CSP Demonstration Power Station, 50 million yuan

6.  2002-2009, 10G and 40G ultra-long-distance high-capacity low-cost optical fiber trunk transmission technology and equipment, $5 million

7.  1998-2000, Large-scale ultra-high-resolution electron microscope semiconductor processing process monitoring equipment, $20 million

8.  1995-1997, Fast Ultra High Sensitivity Ultra High Resolution Tandem Quadrupole Mass Spectrometer, $3 million