Yan Wu scite author profile

A hyperbranched polyol (HBP) was synthesized with poly(ethylene glycol) (PEG) as the core molecule and 2,2‐bis(hydroxymethyl) propionic acid as the chain extender. Then, a series of hyperbranched polyurethane phase‐change materials (HP‐PCMs) with different crosslinking densities was synthesized with isophorone diisocyanate and HBP as a molecular skeleton and PEG 6000 as a phase‐change ingredient. 1H‐NMR, gel permeation chromatography, and Fourier transform infrared spectroscopy confirmed the successful synthesis of the HBP and HP‐PCMs. The polarization optical microscopy and wide‐angle X‐ray diffraction results show that the HP‐PCM exhibited good crystallization properties, but the crystallinity was lower than that of PEG 6000. The analysis results from differential scanning calorimetry indicated that the HP‐PCMs were typical solid–solid phase‐change materials with suitable phase‐transition temperatures. In addition, HP‐PCM‐3, with an appropriate degree of hyperbranched structure, possessed the highest thermal transition enthalpy of 123.5 J/g. Moreover, thermal cycling testing and thermogravimetric analysis showed that the HP‐PCMs exhibited good thermal reliability and stability. © 2017 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2017, 134, 45014.

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Algebraic bright and vortex solitons in self-defocusing media with spatially inhomogeneous nonlinearity

Xie

Zhong

et al. 2013

Phys. Rev. A

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CaCO₃ nanoparticles pH-sensitively induce blood coagulation as a potential strategy for starving tumor therapy

Zhang

Zhuang

et al. 2020

J. Mater. Chem. B

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Preparation of waterborne polyurethane nanocomposite reinforced with halloysite nanotubes for coating applications

Wang

et al. 2016

J of Applied Polymer Sci

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To construct waterborne polyurethane with excellent water resistance and mechanical properties, an organic-inorganic hybrid nanocomposite based on modified halloysite nanotubes (mHNTs) and polyurethane was prepared. The HNTs were modified with an amino-silane coupling agent (KH550) and then reacted with polypropylene glycol, 2,2-Dimethylol propionic acid, and Toluene diisocyanate to form mHNTs/PU aqueous dispersions. The structure of the siloxane functionalized mHNTs was confirmed by a Fourier transform infrared study. The PU/mHNTs composites were characterized by using differential scanning calorimetry, scanning electronic microscopy, thermal gravimetric analysis, a tensile test, particle size analysis, and a water swelling experiment. The tensile strength, Young's modulus, and elongation at the break of the composite polymer with 0.5 wt % mHNTs was shown to be significantly improved, by approximately 200%, 200%, and 30%, respectively. An excess amount of mHNTs could weaken the reinforcing effect and stability of the composite emulsion.

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Yan Wu

Preparation of thermoresponsive and pH-sensitivity polymer magnetic hydrogel nanospheres as anticancer drug carriers

Solid–solid phase‐change materials based on hyperbranched polyurethane for thermal energy storage

Algebraic bright and vortex solitons in self-defocusing media with spatially inhomogeneous nonlinearity

CaCO₃ nanoparticles pH-sensitively induce blood coagulation as a potential strategy for starving tumor therapy

Preparation of waterborne polyurethane nanocomposite reinforced with halloysite nanotubes for coating applications

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Yan Wu

Preparation of thermoresponsive and pH-sensitivity polymer magnetic hydrogel nanospheres as anticancer drug carriers

Solid–solid phase‐change materials based on hyperbranched polyurethane for thermal energy storage

Algebraic bright and vortex solitons in self-defocusing media with spatially inhomogeneous nonlinearity

CaCO3 nanoparticles pH-sensitively induce blood coagulation as a potential strategy for starving tumor therapy

Preparation of waterborne polyurethane nanocomposite reinforced with halloysite nanotubes for coating applications

Contact Info

Product

Resources

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CaCO₃ nanoparticles pH-sensitively induce blood coagulation as a potential strategy for starving tumor therapy