Q
Qianbin Zhao
Researcher at University of Wollongong
Publications - 39
Citations - 1699
Qianbin Zhao is an academic researcher from University of Wollongong. The author has contributed to research in topics: Particle & Microchannel. The author has an hindex of 20, co-authored 36 publications receiving 1117 citations. Previous affiliations of Qianbin Zhao include Illawarra Health & Medical Research Institute & Northeastern University (China).
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Journal ArticleDOI
Liquid metal-filled magnetorheological elastomer with positive piezoconductivity.
Guolin Yun,Shi-Yang Tang,Shuaishuai Sun,Dan Yuan,Qianbin Zhao,Lei Deng,Sheng Yan,Haiping Du,Michael D. Dickey,Weihua Li +9 more
TL;DR: A positive piezoconductive effect is reported in liquid metal-filled magnetorheological elastomers comprising a hybrid of fillers of liquid metal microdroplets and metallic magnetic microparticles that has prospective applications in sensors, stretchable conductors, and responsive thermal interfaces.
Journal ArticleDOI
Recent progress of particle migration in viscoelastic fluids
TL;DR: A comprehensive review on the applications of viscoelasticity-induced particle migration (particle separation, cell deformability measurement and alignment, particle solution exchange, rheometry-on-a-chip and others) is presented.
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Microfluidic Mass Production of Stabilized and Stealthy Liquid Metal Nanoparticles
Shi-Yang Tang,Ruirui Qiao,Sheng Yan,Dan Yuan,Qianbin Zhao,Guolin Yun,Thomas P. Davis,Thomas P. Davis,Weihua Li +8 more
TL;DR: An innovative microfluidics-enabled platform is described as an inexpensive, easily accessible method for the on-chip mass production of EGaIn nanoparticles with tunable size distributions in an aqueous medium and a novel nanoparticle-stabilization approach is reported.
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Tunable particle separation in a hybrid dielectrophoresis (DEP)- inertial microfluidic device
Jun Zhang,Dan Yuan,Qianbin Zhao,Sheng Yan,Shi-Yang Tang,Say Hwa Tan,Jinhong Guo,Huanming Xia,Nam-Trung Nguyen,Weihua Li +9 more
TL;DR: In this article, an innovative hybrid DEP-inertial microfluidic platform for particle tunable separation is proposed, which can work as a flexible platform for a wide range of biomedical applications.
Journal ArticleDOI
Phase Separation in Liquid Metal Nanoparticles
Shi-Yang Tang,David R. G. Mitchell,Qianbin Zhao,Dan Yuan,Guolin Yun,Yuxin Zhang,Ruirui Qiao,Yiliang Lin,Michael D. Dickey,Weihua Li +9 more
TL;DR: Tang et al. as discussed by the authors presented an in situ investigation of phase behavior for gallium-based liquid metal nanoparticles and discovered the unprecedented coexistence of solid particles in spherical liquid metal shells without the support of a crystalline substrate.