K
Ke-Li Han
Researcher at Dalian Institute of Chemical Physics
Publications - 492
Citations - 30389
Ke-Li Han is an academic researcher from Dalian Institute of Chemical Physics. The author has contributed to research in topics: Excited state & Potential energy surface. The author has an hindex of 82, co-authored 491 publications receiving 26199 citations. Previous affiliations of Ke-Li Han include University of Minnesota & California Institute of Technology.
Papers
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Delayed ionization from C70 by electron impact excitation
TL;DR: In this paper, the delayed ionization from electron impact excitation of the gas phase C[sub 70] has been observed using a supersonic molecular beam apparatus with a quadrupole mass spectrometer.
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SVRT calculation for bond-selective reaction H+HOD→H2+OD, HD+OH
TL;DR: In this paper, the SVRT model is applied to study bond-selective branching reaction H+HOD→H2+OD, HD+OH on the Schatz-Elgersma potential energy surface when one of the stretching modes of HOD is excited.
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Direct Observation of a Triplet-State Absorption-Emission Conversion in a Fullerene-Functionalized Pt(II) Metallacycle
Rui Ling Zhang,Rui Ling Zhang,Yang Yang,Songqiu Yang,Ven Kata S.Pavan Neti,Hajar Sepehrpour,Peter J. Stang,Ke-Li Han +7 more
TL;DR: In this paper, a triplet excited-state absorption-emission conversion of a fullerene-functionalized Pt(II) metallacycle was directly observed by nanosecond transient absorption (ns TA) spectroscopy.
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A fluorophore's electron-deficiency does matter in designing high-performance near-infrared fluorescent probes.
Xue-Xiang Zhang,Huan Qi,Ya-Lan Liu,Songqiu Yang,Peng Li,Yan Qiao,Pei-Yu Zhang,Shuhao Wen,Hai-long Piao,Ke-Li Han,Ke-Li Han +10 more
TL;DR: HCy2 and HCy9, which employ receptor units less reactive than the one adopted in NI3, turned out to be the most appropriate NIR probes with high-sensitivity and little nonenzymatic background noise for detecting GST in cells, tissues and tumor xenografts in vivo.
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Stereodynamics studies of the Sr+HF reaction using time-dependent quantum wave packet method
TL;DR: In this paper, the effects of the initial excitation on the total reaction probabilities (final states summed) as a function of collision energy are studied for the v=0, 1 and j <20 states of HF.