M
Mu Yang
Researcher at University of Science and Technology Beijing
Publications - 81
Citations - 2926
Mu Yang is an academic researcher from University of Science and Technology Beijing. The author has contributed to research in topics: Catalysis & Mesoporous silica. The author has an hindex of 27, co-authored 79 publications receiving 2389 citations. Previous affiliations of Mu Yang include Chinese Academy of Sciences.
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Journal ArticleDOI
General synthetic route toward functional hollow spheres with double-shelled structures.
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Highly graphitized 3D network carbon for shape-stabilized composite PCMs with superior thermal energy harvesting
TL;DR: Wang et al. as mentioned in this paper proposed a facile low-cost and controllable strategy to construct compactly interconnected 3D celosia-like highly graphitized thermally conductive network carbon via carbon quantum dots (CQDs) deriving from acetone and divinyl benzene (DVB).
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Surface functionalization engineering driven crystallization behavior of polyethylene glycol confined in mesoporous silica for shape-stabilized phase change materials
Jingjing Wang,Mu Yang,Yunfeng Lu,Jin Zhaokui,Li Tan,Hongyi Gao,Shuang Fan,Wenjun Dong,Ge Wang +8 more
TL;DR: In this article, surface functionalization was used to regulate the interactions between a polyethylene glycol (PEG) and internal/external surfaces of a support of SBA-15 and yield desirable thermal properties of PEG confined in porous supports.
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Synthesis of Spheres with Complex Structures Using Hollow Latex Cages as Templates
Mu Yang,Jin Ma,Zhongwei Niu,Xia Dong,Huifang Xu,Zhaokai Meng,Zhaoguo Jin,Yunfeng Lu,Zhibing Hu,Zhenzhong Yang +9 more
TL;DR: In this paper, the authors used hollow latex cages (HLCs) as templates to fabricate composite hollow spheres with complex structures, which can be used to grow material on the outer surface and double-shelled hollow spheres of various compositions.
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Smart integration of carbon quantum dots in metal-organic frameworks for fluorescence-functionalized phase change materials
TL;DR: In this article, a novel type of metal-organic frameworks (MOFs) based photoluminescence functionalized (PL) phase change materials (PCMs) was designed and fabricated for superior thermal energy and fluorescence harvesting using a facile synthetic strategy for the first time, which expands conventional single thermal nature of PCMs with novel fluorescence function.