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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.
Papers
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Journal ArticleDOI
Serpins Promote Cancer Cell Survival and Vascular Co-Option in Brain Metastasis
Manuel Valiente,Anna C. Obenauf,Xin Jin,Qing Chen,Xiang Zhang,Derek J. Lee,Jamie E. Chaft,Mark G. Kris,Jason T. Huse,Edi Brogi,Joan Massagué +10 more
TL;DR: By protecting cancer cells from death signals and fostering vascular co-option, anti-PA serpins provide a unifying mechanism for the initiation of brain metastasis in lung and breast cancers.
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Experimental demonstration of an acoustic magnifying hyperlens.
TL;DR: The experimental demonstration of an acoustic hyperlens that magnifies subwavelength objects by gradually converting evanescent components into propagating waves and achieves deep-subwavelength resolution with low loss over a broad frequency bandwidth is reported.
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Edge Nonlinear Optics on a MoS2 Atomic Monolayer
TL;DR: In this paper, the translational symmetry breaking of a crystal at its surface may form two-dimensional (2D) electronic states, and a nonlinear optical imaging technique that allows rapid and all-optical determination of the crystal orientations of the 2D material at a large scale.
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Structural phase transition in monolayer MoTe 2 driven by electrostatic doping
Ying Wang,Jun Xiao,Hanyu Zhu,Yao Li,Yousif Alsaid,King Y. Fong,Yao Zhou,Siqi Wang,Wu Shi,Wu Shi,Yuan Wang,Alex Zettl,Alex Zettl,Evan J. Reed,Xiang Zhang,Xiang Zhang,Xiang Zhang +16 more
TL;DR: The experimental demonstration of an electrostatic-doping-driven phase transition between the hexagonal and monoclinic phases of monolayer molybdenum ditelluride (MoTe2), which opens up new possibilities for developing phase-change devices based on atomically thin membranes.
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Room-temperature sub-diffraction-limited plasmon laser by total internal reflection
TL;DR: In this paper, a sub-diffraction-limited plasmon laser with low losses is demonstrated, which enables its room-temperature operation, taking a significant step towards realizing the potential of these lasers.