L
Linyou Cao
Researcher at North Carolina State University
Publications - 102
Citations - 14146
Linyou Cao is an academic researcher from North Carolina State University. The author has contributed to research in topics: Monolayer & Exciton. The author has an hindex of 44, co-authored 99 publications receiving 12116 citations. Previous affiliations of Linyou Cao include Ohio State University & Stanford University.
Papers
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Journal ArticleDOI
Progress, Challenges, and Opportunities in Two-Dimensional Materials Beyond Graphene
Sheneve Z. Butler,Shawna M. Hollen,Linyou Cao,Yi Cui,Yi Cui,Jay Gupta,Humberto R. Gutierrez,Tony F. Heinz,Seung Sae Hong,Seung Sae Hong,Jiaxing Huang,Ariel Ismach,Ezekiel Johnston-Halperin,Masaru Kuno,Vladimir V. Plashnitsa,Richard D. Robinson,Rodney S. Ruoff,Sayeef Salahuddin,Jie Shan,Li Shi,Michael G. Spencer,Mauricio Terrones,Wolfgang Windl,Joshua E. Goldberger +23 more
TL;DR: The properties and advantages of single-, few-, and many-layer 2D materials in field-effect transistors, spin- and valley-tronics, thermoelectrics, and topological insulators, among many other applications are highlighted.
Journal ArticleDOI
Engineering light absorption in semiconductor nanowire devices
Linyou Cao,Justin S. White,Joon-Shik Park,Jon A. Schuller,Bruce M. Clemens,Mark L. Brongersma +5 more
TL;DR: It is shown that leaky-mode resonances, which can gently confine light within subwavelength, high-refractive-index semiconductor nanostructures, are ideally suited to enhance and spectrally engineer light absorption in this important size regime.
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Controlled scalable synthesis of uniform, high-quality monolayer and few-layer MoS2 films
TL;DR: This work presents a self-limiting approach that can grow high quality monolayer and few-layer MoS2 films over an area of centimeters with unprecedented uniformity and controllability and paves the way for the development of practical devices with 2DMoS2 and opens up new avenues for fundamental research.
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Layer-Dependent Electrocatalysis of MoS2 for Hydrogen Evolution
TL;DR: The results suggest that increasing the hopping efficiency of electrons in the vertical direction is a key for the development of high-efficiency two-dimensional material catalysts.
Journal ArticleDOI
All The Catalytic Active Sites of MoS2 for Hydrogen Evolution
Guoqing Li,Du Zhang,Qiao Qiao,Yifei Yu,David Peterson,Abdullah Zafar,Raj Kumar,Stefano Curtarolo,Frank Hunte,Steven Shannon,Yimei Zhu,Weitao Yang,Linyou Cao +12 more
TL;DR: It is demonstrated that, in addition to the well-known catalytically active edge sites, sulfur vacancies provide another major active site for the HER, while the catalytic activity of grain boundaries is much weaker.