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Received December 3, 2021
Accepted February 23, 2022
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This is an Open-Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/bync/3.0) which permits
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Microwave-assisted pyrolysis of phosphoric acid-activated Goldenberry peel powder biochar for enhancing the adsorption of trace beta-lactamase inhibitors
Tian Ai
Chunmei Xu1
Lei Zhang
Ke Chen
Yonggui Wu2
Shujuan Dai3†
Xiaolu Xiong
Shixin Jie
Xiaoni Jin
Zhongxu Yu2
School of Chemical Engineering, University of Science and Technology Liaoning, Anshan 114051, Liaoning, China 1Technical Development (Engineering) Department, Shandong Hualu Hengsheng Chemical Co., Ltd,, Dezhou 253019, Shandong, China 2Technical Development (Engineering) Department, Hualu Hengsheng (JingZhou) Chemical Co., Ltd, Jingzhou 434100, Hubei, China 3School of Mining Engineering, University of Science and Technology Liaoning, Anshan 114051, Liaoning, China
Sunandshinesweet@163.com
Korean Journal of Chemical Engineering, September 2022, 39(9), 2414-2423(10), 10.1007/s11814-022-1094-3
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Abstract
Novel efficient biochar of Goldenberry peels (GBPMW-H3PO4) was prepared through a microwave-assisted phosphoric acid activation method. It was characterized and used for removing two beta-lactamase inhibitors, sulbactam (SAM, first listed in Japan in 1986) and avibactam (AVI, first listed in the U.S. in 2015), from aqueous solution. Characterization confirmed that GBPMW-H3PO4 displayed a high surface area (720.046m2 g-1), more abundant pore structure, smaller particle size, and higher thermal stability. The experimental results showed that the adsorption of the two antibiotics was a spontaneous, favorable, and endothermic process, highly dependent on solution pH. A contact time of 60 min assured equilibrium, and GBPMW-H3PO4 followed pseudo-first-order kinetics (R2=0.9950-0.9977). Furthermore, the adsorption capacities of GBPMW-H3PO4 for SAM and AVI were 211.86 and 198.81mg g-1, respectively, and the performance was better than that of unmodified biochar. Microscopically, the main mechanism could be explained by π-π electron donor-acceptor interaction, hydrogen bonding interaction, π-hydrogen bonding, hydrophobic interaction, and electrostatic interaction. The study demonstrates that the microwave-assisted H3PO4 activation method could produce biochar, and GBPMW-H3PO4 was confirmed to be a low-cost and high-efficiency adsorbent for removing beta-lactamase inhibitors from medical wastewater.
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Cao F, Lian C, Yu J, Yang H, Lin S, Bioresour. Technol., 276, 211 (2019)
Ai T, Jiang X, Liu Q, Open Chem., 16, 842 (2018)
