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Chenglin Wu
Researcher at Missouri University of Science and Technology
Publications - 52
Citations - 696
Chenglin Wu is an academic researcher from Missouri University of Science and Technology. The author has contributed to research in topics: Fracture (geology) & MXenes. The author has an hindex of 11, co-authored 44 publications receiving 362 citations. Previous affiliations of Chenglin Wu include University of Texas at Austin.
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Journal ArticleDOI
Adhesion of two-dimensional titanium carbides (MXenes) and graphene to silicon.
TL;DR: It is shown that adhesion of MXenes depends on their monolayer thickness and, in contrast to graphene, does not show number-of-monolayers dependency.
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MXene-Graphene Field-Effect Transistor Sensing of Influenza Virus and SARS-CoV-2
Yanxiao Li,Zhekun Peng,Natalie J. Holl,Md. Rifat Hassan,John M. Pappas,Congjie Wei,Omid Hoseini Izadi,Yang Wang,Xiangyang Dong,Cheng Wang,Yue-Wern Huang,Dong-Hyun Kim,Chenglin Wu +12 more
TL;DR: In this paper, an MXene-graphene field effect transistor (FET) sensor for both influenza virus and 2019-nCoV sensing was developed and characterized, which combines the high chemical sensitivity of MXene and the continuity of large-area high-quality graphene to form an ultra-sensitive virus-sensing transduction material (VSTM).
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Plasticity mechanism for copper extrusion in through-silicon vias for three-dimensional interconnects
Tengfei Jiang,Chenglin Wu,Laura Spinella,Jang-Hi Im,Nobumichi Tamura,Martin Kunz,Ho Young Son,Byoung Gyu Kim,Rui Huang,Paul S. Ho +9 more
TL;DR: In this paper, a simple analytical model elucidated the role of plasticity during thermal cycling, and finite element analyses were carried out to confirm the plasticity mechanism as well as the effect of the via/Si interface.
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On determining mixed-mode traction–separation relations for interfaces
TL;DR: In this paper, a direct method is proposed to determine mixed-mode traction-separation relations based on a combination of global and local measurements including load-displacement, crack extension, crack tip opening displacement, and fracture resistance curves.
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Binder-Scale Creep Behavior of Metakaolin-Based Geopolymer
TL;DR: In this paper, the creep behavior of binder phase in metakaolin-based geopolymers (MKGs) was investigated using nanoindentation, which indicated a strong correlation between the binder-scale creep behavior in MKG and its microstructure, particularly the characteristic pore size.