Zhuangli Cai
Shanghai Jiao Tong University
8 Papers
9 Citations
Zhuangli Cai is an academic researcher from Shanghai Jiao Tong University. The author has contributed to research in topics: Medicine & Aperiodic graph. The author has an hindex of 1, co-authored 4 publications. Previous affiliations of Zhuangli Cai include Southeast University.
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Papers
Tailored morphology and highly enhanced phonon transport in polymer fibers: a multiscale computational framework
Shangchao Lin,Zhuangli Cai,Zhuangli Cai,Yang Wang,Lingling Zhao,Chenxi Zhai +5 more
- 19 Dec 2019
TL;DR: In this article, an effective medium-theory model based on the serial-parallel heat conducting nature of semicrystalline polymers is developed to predict the impacts from both chain alignment and crystallinity on thermal conductivity.
Thermal batteries based on inverse barocaloric effects
Zhe Zhang,Kuo Li,Shangchao Lin,Ruiqi Song,Dehong Yu,Yida Wang,Jingfan Wang,Shogo Kawaguchi,Zhao Zhang,Chenyang Yu,Xiaodong Li,Jie Chen,Lunhua He,Richard A. Mole,Bao Yuan,Qingyong Ren,Kun Qian,Zhuangli Cai,Jingui Yu,Mingchao Wang,Changying Zhao,Xin Tong,Zhidong Zhang,Bing Li +23 more
TL;DR: In this paper , a barocaloric thermal battery is proposed to harvest and reuse low-temperature waste heat, which is based on the large inverse Barocaloric effect of ammonium thiocyanate (NH4SCN).
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Conformational Freedom-Enhanced Optomechanical Energy Conversion Efficiency in Bulk Azo-Polyimides
Chenxi Zhai,Chenxi Zhai,Shangchao Lin,Mingchao Wang,Huanhuan Zhou,Eugenia Stanisauskis,Zhuangli Cai,Jingjie Yeo,William S. Oates +8 more
TL;DR: In this paper, the authors reconcile both experimental and theoretical challenges to understand the limiting factors for the optomechanical conversion in photostrictive polymers, and propose to improve the optical performance through targeted strategies, such as porosity control and thermal annealing.
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Diffuson‐Dominated and Ultra Defect‐Tolerant Two‐Channel Thermal Transport in Hybrid Halide Perovskites
Zhuangli Cai,Shangchao Lin,Mohammad-Reza Ahmadian-Yazdi,Changying Zhao +3 more
TL;DR: Two-channel thermal transport in halide perovskites exhibits defect tolerance and dominant diffuson contribution. Iodine vacancy defects suppress the thermal transport in the propagon channel, but less in the diffuson channel. The total thermal conductivity reduction is dominated by the diffuson channel, which exhibits ultra-defect-tolerant behavior.
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