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Xiang Zhang
Researcher at Baylor College of Medicine
Publications - 3483
Citations - 144843
Xiang Zhang is an academic researcher from Baylor College of Medicine. The author has contributed to research in topics: Medicine & Computer science. The author has an hindex of 154, co-authored 1733 publications receiving 117576 citations. Previous affiliations of Xiang Zhang include University of California, Berkeley & University of Texas MD Anderson Cancer Center.
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Journal ArticleDOI
Absorption Induced by Mn Doping of ZnS for Improved Sensitized Quantum-Dot Solar Cells
Sabit Horoz,Qilin Dai,Francis Scott Maloney,Baichhabi Yakami,Jon M. Pikal,Xiang Zhang,Jing Wang,Wenyong Wang,Jinke Tang +8 more
TL;DR: In this paper, a solution-based method was used to synthesize a cubic phase ZnS-QDs, which can be used to expand the absorption window into the visible and infrared regions.
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Circulating and disseminated tumor cells from breast cancer patient-derived xenograft-bearing mice as a novel model to study metastasis
Mario Giuliano,Sabrina Herrera,Pavel Christiny,Chad A. Shaw,Chad J. Creighton,Tamika Mitchell,Raksha Bhat,Xiaomei Zhang,Sufeng Mao,Lacey E. Dobrolecki,Ahmed Al-rawi,Fengju Chen,Bianca Maria Veneziani,Xiang Zhang,Susan G. Hilsenbeck,Alejandro Contreras,Carolina Gutierrez,Rinath Jeselsohn,Rinath Jeselsohn,Mothaffar F. Rimawi,C. Kent Osborne,Michael T. Lewis,Rachel Schiff,Meghana V. Trivedi,Meghana V. Trivedi +24 more
TL;DR: This study suggests that CTCs and BM-DTCs detected in BC PDX-bearing mice may represent a valuable and unique preclinical model for investigating the role of these rare cells in tumor metastases.
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Spectral optical functions of silicon in the range of 1.13-4.96 eV at elevated temperatures
TL;DR: In this paper, the complex refractive index is determined over a spectral range of 1.13-4.96 eV at high temperatures by ellipsometry in a reduced pressure, inert gas environment.
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Metasurface-Mediated Quantum Entanglement
TL;DR: In this paper, the authors theoretically demonstrate quantum entanglement between two qubits trapped on a chip and separated by macroscopic distances at the chip level by harnessing the extraordinary light-molding capabilities of metasurfaces.
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Room-Temperature Giant Stark Effect of Single Photon Emitter in van der Waals Material.
Yang Xia,Quanwei Li,Jeongmin Kim,Wei Bao,Cheng Gong,Sui Yang,Yuan Wang,Xiang Zhang,Xiang Zhang +8 more
TL;DR: The first RT Stark effect of SPEs with a record-high Stark shift of single photon energy more than 30 meV, largest among all previous color center emitters is reported, paving a way towards the scalable solid-state on-chip quantum communication and computation at room temperature.