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Wei Jiang
Researcher at Chinese Academy of Sciences
Publications - 541
Citations - 14554
Wei Jiang is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Micelle & Quantum dot. The author has an hindex of 53, co-authored 494 publications receiving 11455 citations. Previous affiliations of Wei Jiang include Paul Scherrer Institute & Sun Yat-sen University.
Papers
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Self-assembly of two-dimensional structures in water from rigid and curved amphiphiles with a low molecular weight.
TL;DR: Two-dimensional structures in water were self-assembled from rigid and curved amphiphiles with very low molecular weight (MW < 500 Da) and contain a bisnaphthalene core.
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Local fiscal pressure, policy distortion and energy efficiency: Micro-evidence from a quasi-natural experiment in China
TL;DR: In this article , the authors developed a stylized theoretical model wherein local fiscal pressure induces policy distortions and thereby reducing the energy efficiency (EE) in firms in the manufacturing sector, combined with local government behavior and the response of firms.
Patent
Chlorinated polypropylene (propylene carbonate) and preparation method thereof
TL;DR: The chlorinated polypropylene (propylene carbonate) has relatively strong electronegativity, and the interaction between the chlorinatedpolypropylene and other polar materials can be enhanced, and it can be further applied as a compatibilizer, a binding agent, a coating, printing ink and the like as discussed by the authors.
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Study of strain and composition of the self-organized GE dots by grazing incident X-ray diffraction
TL;DR: Grazing incident X-ray diffraction at different grazing angles for self-organized Ge dots grown on Si(0,0,1) are carried out and lattice constant expansions of 1.2% parallel to the surface as compared with the Si lattice are found within the Ge dots as discussed by the authors.
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Theoretical representation of shear and pressure influence on the phase separation behavior of PVME/PS mixture
TL;DR: In this article, the Gibbs energy and equation of state were derived by introducing the energy (E-s) stored during flow for polymer blends under shear, and the three points of the three-phase equilibrium were forecasted.