Z
Zhi Ping Xu
Researcher at University of Queensland
Publications - 563
Citations - 32580
Zhi Ping Xu is an academic researcher from University of Queensland. The author has contributed to research in topics: Graphene & Catalysis. The author has an hindex of 77, co-authored 538 publications receiving 25653 citations. Previous affiliations of Zhi Ping Xu include Nanjing University of Aeronautics and Astronautics & Tsinghua University.
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Molecular-channel driven actuator with considerations for multiple configurations and color switching.
Jiuke Mu,Gang Wang,Hongping Yan,Huayu Li,Xuemin Wang,Enlai Gao,Hou Chengyi,Anh Thi Cam Pham,Lianjun Wu,Qinghong Zhang,Yaogang Li,Zhi Ping Xu,Yang Guo,Elsa Reichmanis,Hongzhi Wang,Meifang Zhu +15 more
TL;DR: An ambient-driven actuator that takes advantage of inherent nanoscale molecular channels within a commercial perfluorosulfonic acid ionomer (PFSA) film, fabricated by simple solution processing to realize a rapid response, self-adaptive, and exceptionally stable actuation.
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Nanoconfinement controls stiffness, strength and mechanical toughness of β-sheet crystals in silk
TL;DR: It is illustrated that through nanoconfinement, a combination of uniform shear deformation that makes most efficient use of hydrogen bonds and the emergence of dissipative molecular stick-slip deformation leads to significantly enhanced mechanical properties.
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Inorganic nanoparticles as carriers for efficient cellular delivery
TL;DR: The fundamental understanding of properties of inorganic nanoparticles in relation to cellular delivery efficiency as the most paramount issue will be highlighted and some key issues in efficient cellular delivery using in organic nanoparticles are highlighted.
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Carbonized Silk Fabric for Ultrastretchable, Highly Sensitive, and Wearable Strain Sensors
Chunya Wang,Xiang Li,Enlai Gao,Muqiang Jian,Kailun Xia,Qi Wang,Zhi Ping Xu,Tian-Ling Ren,Yingying Zhang +8 more
TL;DR: A carbonized plain-weave silk fabric is fabricated into wearable and robust strain sensors, which can be stretched up to 500% and show high sensitivity in a wide strain range.
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Ultrafast viscous water flow through nanostrand-channelled graphene oxide membranes
Hubiao Huang,Zhigong Song,Ning Wei,Li Shi,Yiyin Mao,Yulong Ying,Luwei Sun,Zhi Ping Xu,Xinsheng Peng +8 more
TL;DR: Nanostrand-channelled graphene oxide ultrafiltration membranes with a network of nanochannels with a narrow size distribution and superior separation performance are reported, which offers a 10-fold enhancement without sacrificing the rejection rate compared with that of graphene oxide membranes.