Y
Yu Wang
Researcher at Fudan University
Publications - 242
Citations - 16183
Yu Wang is an academic researcher from Fudan University. The author has contributed to research in topics: Medicine & Chemistry. The author has an hindex of 40, co-authored 191 publications receiving 13445 citations. Previous affiliations of Yu Wang include Third Military Medical University & Chinese Academy of Sciences.
Papers
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Synthesis of N-Doped Graphene by Chemical Vapor Deposition and Its Electrical Properties
TL;DR: Electrical measurements show that the N-doped graphene exhibits an n-type behavior, indicating substitutional doping can effectively modulate the electrical properties of graphene.
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Atomic‐Layer Graphene as a Saturable Absorber for Ultrafast Pulsed Lasers
Qiaoliang Bao,Han Zhang,Yu Wang,Zhenhua Ni,Yongli Yan,Zexiang Shen,Kian Ping Loh,Dingyuan Tang +7 more
TL;DR: In this paper, the use of atomic layer graphene as saturable absorber in a mode-locked fiber laser for the generation of ultrashort soliton pulses (756 fs) at the telecommunication band is demonstrated.
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Broadband graphene polarizer
Qiaoliang Bao,Han Zhang,Han Zhang,Bing Wang,Zhenhua Ni,Candy Haley Yi Xuan Lim,Yu Wang,Dingyuan Tang,Kian Ping Loh +8 more
TL;DR: In this paper, the coupling, guiding and polarizing of electromagnetic waves in graphene and demonstrate a graphene-based fibre polarizer that exhibits a transverse electric-pass polarization at an extinction ratio of up to ∼27 dB in the telecommunications band.
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Origin of Enhanced Stem Cell Growth and Differentiation on Graphene and Graphene Oxide
Wong Cheng Lee,Candy Haley Yi Xuan Lim,Hui Shi,Lena A. L. Tang,Yu Wang,Chwee Teck Lim,Kian Ping Loh +6 more
TL;DR: It is reported that the strong noncovalent binding abilities of G allow it to act as a preconcentration platform for osteogenic inducers, which accelerate MSCs growing on it toward the osteogenic lineage.
Journal ArticleDOI
Length-dependent thermal conductivity in suspended single-layer graphene.
Xiangfan Xu,Luiz Felipe C. Pereira,Yu Wang,Jing Wu,Kaiwen Zhang,Xiangming Zhao,Sukang Bae,Cong Tinh Bui,Rongguo Xie,John T. L. Thong,Byung Hee Hong,Kian Ping Loh,Davide Donadio,Baowen Li,Barbaros Özyilmaz +14 more
TL;DR: Interestingly and in contrast to bulk materials, at 300 K, thermal conductivity keeps increasing and remains logarithmically divergent with sample length even for sample lengths much larger than the average phonon mean free path, which provides fundamental understanding of thermal transport in two-dimensional materials.