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Phases of fluids under nanoconfinement are the structural basis of physical properties of soft matter confined in nanospace. However, existing state of the molecules, phases and phase changes of the nanoconfined fluids may be very different in bulk referred to. In the case, the freezing and melting in nanospace can be very complicated, which becomes a heated topic in this field. A team from College of Chemistry an...
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Room temperature ionic liquids (RTILs) represent a new class of solvents with ionic and liquid character at or around room temperature, showing ever-increasing potential applications in radiochemical separation, in particular, in liquid/liquid extraction of nuclear fuel associated radionuclides from aqueous solutions. The related coordination chemistry and related extraction mechanisms, however, are still not well...

Uranyl coordination chemistry as well as its speciation is of great significance in the nuclear industry in terms of nuclear waste separation and disposal, meanwhile the intensive study on it will help to explore novel uranyl-organic frameworks with intriguing structure or function, i.e. uranyl-organic interpenetrating networks. However, the design and synthesis of uranyl-organic interpene+trating networks bearing...

As an extremely external driven and kinetics controlled process, flow-induced crystallization (FIC) of polymer is of vital importance not only in scientific research but also in industrial application. Over past decades, great efforts have been dedicated to understand the formations of precursor and shish-kebab, the roles of molecular and flow parameters on nucleation, and other aspects related to FIC. However, th...
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Double network structures formed with either two polymer or polymer and inorganic nanofiller have been demonstrated to enhance mechanical properties in orders of magnitude, which is an effective approach to create advanced structural and functional materials with unmatchable properties. The mechanical enhancement is attributed to fracture of network with weak bond while the network with strong bond maintains the i...

Recently, Ag2Te was experimentally confirmed to be a 3D topological insulator (TI) at ambient pressure; however, the high-pressure behaviors and properties of Ag2Te were rarely and ambiguously reported. A team from state key lab of Superhard materials in Jilin university has gained insight into the mysterious structure and function of Ag2Te. Their research has been published on September 30th, 2015 in Scientific ...
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