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个人简介. 个人简介 RichardN.Zare,美国斯坦福大学教授,国际著名物理化学、分析化学家、美国科学院院士、中国科学院外籍院士。. Zare教授已在Science,Nature,PNAS,JACS,Angew.Chem.,Phys.ReviewLetts等国际高水平学术期刊发表论文900余篇。. Zare教授长期致力于推动中美两国科学 ...
Profile. zare@stanford.edu. (650) 723-3062. A pioneer in the use of lasers to study chemical reactions at the molecular level, Marguerite Blake Wilbur Professor Richard N. Zare pursues diverse theoretical and experimental interests in physical chemistry and nanoscale chemical analysis. The Zarelab has made a broad impact in analytic chemistry ...
Richard Zare's development of laser-induced fluorescence (LIF) allowed us to do this for the first time. The technique can not only detect and identify molecules, but also trap and manipulate them at the quantum level in unprecedented ways. LIF uses laser light of a fixed wavelength (color) to cause atoms or molecules to fluoresce, exciting ...
Born in 1939 in Cleveland, Ohio, Professor Zare trained in physical and analytical chemistry at Harvard University (B.A. 1961, Ph.D. 1964). His doctoral study under Professor Dudley Herschbach explored photodissociation dynamics. After faculty positions spanning chemistry at the Massachusetts Institute of Technology, chemistry, physics and ...
Richard Zare, Stanford University Since the Kaust study was published in 2022, Zare and his colleagues have conducted clean experiments that eliminated ozone from their system. In the resultant paper, published in April 2023 , 5 the team recorded hydrogen peroxide concentrations ranging from 0.3μM to 1.5μM, depending on flow conditions – a significant decrease from their initial findings.
Water (H2O) microdroplets are sprayed onto a magnetic iron oxide (Fe3O4) and Nafion-coated graphite mesh using compressed N2 or air as the nebulizing gas. The resulting splash of microdroplets enters a mass spectrometer and is found to contain ammonia (NH3). This gas–liquid–solid heterogeneous catalytic system synthesizes ammonia in 0.2 ms.
Richard Zare We initiate the reaction H + D2(v = 0, j = 0−4) → HD (v‘ = 1,2, j‘) + D by photolyzing HBr in a 1:9 mixture of HBr and D2 expanded into vacuum through a pulsed nozzle.
