R
Rong Wang
Researcher at Chinese Academy of Sciences
Publications - 1085
Citations - 42153
Rong Wang is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Membrane & Chemistry. The author has an hindex of 90, co-authored 950 publications receiving 32172 citations. Previous affiliations of Rong Wang include Lanzhou University & Hunan Agricultural University.
Papers
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Diverse morphologies of PVDF hollow fiber membranes and their performance analysis as gas/liquid contactors
TL;DR: In this paper, the morphology development of polyvinylidene fluoride hollow fiber membrane made using various N-methyl-2-pyrrolidone (NMP) aqueous solutions as an inner coagulant was carried out.
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PDMS-coated porous PVDF hollow fiber membranes for efficient recovery of dissolved biomethane from anaerobic effluents
TL;DR: In this article, a composite hollow fiber membrane that efficiently recovers dissolved methane (dCH4) from anaerobic wastewater treatment effluents via membrane contactor (MC) process is presented.
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Multifunctional Pt(iv) pro-drug and its micellar platform: to kill two birds with one stone.
Haiqin Song,Haihua Xiao,Yu Zhang,Haidong Cai,Rong Wang,Yonghui Zheng,Yubin Huang,Yuxin Li,Zhigang Xie,Tongjun Liu,Xiabin Jing +10 more
TL;DR: A multifunctional hybrid platinum(iv) drug which has both DCA and Pt in one molecule was synthesized and tethered to polymers to further self-assemble into micelles to target both nuclear DNA and mitochondria.
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C2 and C3 hydrocarbon separations in poly(1,5-naphthalene-2,2′-bis(3,4-phthalic) hexafluoropropane) diimide (6FDA-1,5-NDA) dense membranes
TL;DR: In this article, the authors investigated the gas permeability coefficients of olefin and paraffin in aromatic poly(1,5-naphthalene-2,2′-bis(3,4-phthalic) hexafluoropropane) diimide (6FDA-1, 5-NDA) dense membranes.
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Novel single-step hydrophobic modification of polymeric hollow fiber membranes containing imide groups: Its potential for membrane contactor application
TL;DR: In this paper, a simple and inexpensive approach for hydrophobic modification of imide group contained polymeric membranes was explored, which resulted in surface pore opening and thinning down of the membrane skin layer.