Zhongfu Guo scite author profile

Zhongfu Guo

2Publications

73Citation Statements Received

76Citation Statements Given

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205

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Nanjing Forestry University

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Polyimide/cellulose acetate core/shell electrospun fibrous membranes for oil-water separation

Guo

Zhao

et al. 2017

Separation and Purification Technology

165

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In recent years, efficient, cost effective oil-water separation technologies are highly desired due to frequent oil spill accidents. To design fibrous membranes for efficient oil-water separation, 'flexible' polyamide acid (PAA), being polyamide acid with ether linkages in the backbone, and 'heavily' fluorinated polybenzoxazine (F-PB) were synthesized. Cellulose acetate (CA) and PAA were co-axially electrospun; the PAA core was then imidizated at high temperature to obtain core/shell structured CA/polyimide (PI) electrospun fibrous 2 membranes; subsequently the surface of the fibers was modified with F-PB， in the presence or in absence of silica nanoparticles (SNPs). The mechanical strength, surface wettability, chemical and thermal stability, and oil-water separation potential of thus obtained PI/CA fibrous membranes were evaluated. The membranes show a much higher critical tensile stress (130 MPa) and critical tensile strain (52%), when compared with CA fibrous membranes. Due to the use of the 'heavily' fluorinated polybenzoxazine, the membranes are superhydrophobic with a water contact angle of 162 o and an oil contact angle which approaches 0 o. Interestingly, the newly designed PI/CA/F-PB-1/SNP-4 membranes can effectively separate various oil-water mixtures, solely driven by gravity, with a high flux (3106.2 ± 100 L•m-2 •h-1) and a high separation efficiency (> 99%) and thus possess great potential for oil-water separation.

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Fabrication of Sustained-release CA-PU Coaxial Electrospun Fiber Membranes for Plant Grafting Application

Guo

Tang

Zhou

et al. 2017

Carbohydrate Polymers

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Zhongfu Guo

Polyimide/cellulose acetate core/shell electrospun fibrous membranes for oil-water separation

Fabrication of Sustained-release CA-PU Coaxial Electrospun Fiber Membranes for Plant Grafting Application

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