Y
Yuanhua Lin
Researcher at Tsinghua University
Publications - 817
Citations - 30987
Yuanhua Lin is an academic researcher from Tsinghua University. The author has contributed to research in topics: Medicine & Chemistry. The author has an hindex of 80, co-authored 482 publications receiving 23758 citations. Previous affiliations of Yuanhua Lin include Academia Sinica & Beihang University.
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Interface effect on thermal conductivity of carbon nanotube composites
TL;DR: In this article, a simple formula for the thermal conductivity enhancement in carbon nanotube composites is presented by incorporating the interface thermal resistance with an effective medium approach, which predicts that a large interface thermal sensitivity across the nanotubes-matrix interface causes a significant degradation in the thermal performance.
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Novel Ferroelectric Polymer Composites with High Dielectric Constants
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Giant dielectric permittivity observed in Li and Ti doped NiO.
TL;DR: It is suggested that the giant dielectric constant response of the doped NiO could be enhanced by a grain boundary-layer mechanism as found in boundary- layer capacitors as for that yielding ferroelectrics.
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Synergistic Coupling between Li6.75La3Zr1.75Ta0.25O12 and Poly(vinylidene fluoride) Induces High Ionic Conductivity, Mechanical Strength, and Thermal Stability of Solid Composite Electrolytes
Xue Zhang,Ting Liu,Shuofeng Zhang,Xin Huang,Bingqing Xu,Yuanhua Lin,Ben Xu,Liangliang Li,Ce-Wen Nan,Yang Shen +9 more
TL;DR: This study indicates that the LLZTO modifying PVDF membrane is a promising electrolyte used for all-solid-state lithium batteries.
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Ultrahigh–energy density lead-free dielectric films via polymorphic nanodomain design
Hao Pan,Fei Li,Fei Li,Yao Liu,Qinghua Zhang,Meng Wang,Shun Lan,Yunpeng Zheng,Jing Ma,Lin Gu,Yang Shen,Pu Yu,Shujun Zhang,Long Qing Chen,Yuanhua Lin,Ce-Wen Nan +15 more
TL;DR: The enhancement in the dielectric properties suggests that the strategy for optimizing a ceramic solid solution enables the design of better high- performance capacitors and should be generalizable for designing high-performance dielectrics and other functional materials that benefit from nanoscale domain structure manipulation.