K
Kai-Tak Wan
Researcher at Northeastern University
Publications - 146
Citations - 4439
Kai-Tak Wan is an academic researcher from Northeastern University. The author has contributed to research in topics: Adhesion & Delamination. The author has an hindex of 29, co-authored 141 publications receiving 3846 citations. Previous affiliations of Kai-Tak Wan include Nanyang Technological University & University of Missouri.
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Journal ArticleDOI
Carbon-Nanotube-Embedded Hydrogel Sheets for Engineering Cardiac Constructs and Bioactuators
Su Ryon Shin,Sung Mi Jung,Momen Zalabany,Keekyoung Kim,Pinar Zorlutuna,Sang Bok Kim,Mehdi Nikkhah,Masoud Khabiry,Mohamed Azize,Jing Kong,Kai-Tak Wan,Tomas Palacios,Mehmet R. Dokmeci,Mehmet R. Dokmeci,Hojae Bae,Xiaowu Tang,Ali Khademhosseini,Ali Khademhosseini +17 more
TL;DR: Results indicate that the electrically conductive and nanofibrous networks formed by CNTs within a porous gelatin framework are the key characteristics of CNT-GelMA leading to improved cardiac cell adhesion, organization, and cell-cell coupling.
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Reduced Graphene Oxide-GelMA Hybrid Hydrogels as Scaffolds for Cardiac Tissue Engineering.
Su Ryon Shin,Su Ryon Shin,Su Ryon Shin,Claudio Zihlmann,Claudio Zihlmann,Mohsen Akbari,Mohsen Akbari,Mohsen Akbari,Pribpandao Assawes,Pribpandao Assawes,Louis Cheung,Kaizhen Zhang,Vijayan Manoharan,Vijayan Manoharan,Yu Shrike Zhang,Yu Shrike Zhang,Mehmet Yuksekkaya,Kai-Tak Wan,Mehdi Nikkhah,Mehmet R. Dokmeci,Mehmet R. Dokmeci,Mehmet R. Dokmeci,Xiaowu Shirley Tang,Ali Khademhosseini +23 more
TL;DR: The engineered cardiac tissue constructs using rGO incorporated hybrid hydrogels can potentially provide high-fidelity tissue models for drug studies and the investigations of cardiac tissue development and/or disease processes in vitro.
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Mechanical property characterization of mouse zona pellucida
TL;DR: In this article, a microelectromechanical system-based multiaxis cellular force sensor has been used to conduct mouse ZP force sensing, establishing a quantitative relationship between applied forces and biomembrane structural deformations on both mouse oocytes and embryos.
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Direct measurement of graphene adhesion on silicon surface by intercalation of nanoparticles
TL;DR: In this article, a technique to characterize adhesion of monolayered/multilayered graphene sheets on silicon wafer is reported, where nanoparticles trapped at graphene-silicon interface act as point wedges to support axisymmetric blisters.
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A theoretical and numerical study of a thin clamped circular film under an external load in the presence of a tensile residual stress
TL;DR: In this paper, the elastic responses of the blistering films are shown to be linear when the film is thick, relatively rigid, or subjected to a large residual stress, and cubic when the films is thin, flexible, or under a small residual stress.