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Superhydrophobic banana stem–derived carbon aerogel for oil and organic adsorptions and energy storage

The porous 3D structure of zinc-doped carbon aerogel is created from cellulose precursor extracted from banana stem—a biomass waste that is abundant in Vietnam—through a simple and easy-to-implement 2-step process. Additionally, sodium alginate was used as a crosslinker and zinc acetate as a network...

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Published in:	Biomass conversion and biorefinery 2024-09, Vol.14 (17), p.20089-20103
Main Authors:	Tu, Phan Minh, Vy, Dang Ngoc Chau, Ngan, Le Thanh, Lam, Cao Vu, Thang, Tran Quoc, Duyen, Nguyen Hoang Kim, Toan, Huynh Phuoc, Son, Nguyen Truong, Hieu, Nguyen Huu
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Subjects:	Biotechnology Energy Original Article Renewable and Green Energy
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creator	Tu, Phan Minh Vy, Dang Ngoc Chau Ngan, Le Thanh Lam, Cao Vu Thang, Tran Quoc Duyen, Nguyen Hoang Kim Toan, Huynh Phuoc Son, Nguyen Truong Hieu, Nguyen Huu
description	The porous 3D structure of zinc-doped carbon aerogel is created from cellulose precursor extracted from banana stem—a biomass waste that is abundant in Vietnam—through a simple and easy-to-implement 2-step process. Additionally, sodium alginate was used as a crosslinker and zinc acetate as a network coupling agent that can strengthen the gel system and increase the porosity of the carbon aerogel. In addition, zinc acetate also acts as a doping agent, increasing the ionic mobility of the material. Zinc-doped carbon aerogels synthesized from banana stem (Zn-BS-CA) have outstanding characteristics such as high specific surface area (up to 115 m 2 /g), diverse pore shapes, high porosity of the material, and low bulk specific gravity. Characterization of Zn-BS-CA was shown through modern methods (scanning electron microscope, Fourier transform infrared spectroscopy, Raman spectroscopy, X-ray crystallography, energy-dispersive X-ray, and nitrogen adsorption–desorption isotherms). Zn-BS-CA reached a maximum oil adsorption capacity of 34,997 g/g and a specific capacitance of 74 F/g for Zn-BS-CA pyrolyzed at 700 °C (Zn-BS-CA700). More importantly, Zn-BS-CA 700 shows capacity retention of 95% after over 500 cycles. The above results indicate high oil adsorption and energy storage capabilities of Zn-BS-CA.
doi_str_mv	10.1007/s13399-023-04176-y
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title	Superhydrophobic banana stem–derived carbon aerogel for oil and organic adsorptions and energy storage
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