Preparation and Electrochemical Performance of Coconut Shell Activated Carbon Produced by the H<sub>3</sub>PO<sub>4</sub> Activation with Rapid Cooling Method

Ming Zhang; Yonggang Li; Hongyu Si; Bing Wang; Tao Song

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Preparation and Electrochemical Performance of Coconut Shell Activated Carbon Produced by the H₃PO₄ Activation with Rapid Cooling Method

机译：H _{3 PO _{4 快速冷却法活化制备的椰子壳活性炭的制备及电化学性能}}

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Activated carbon (AC) was prepared by the H3PO4 activation of coconut shells. After activation, AC was immediately treated by rapid cooling with liquid nitrogen to prevent the pore occlusion typically observed during natural cooling thereby prevent pore sizes and pore volumes from decreasing. When compared with slow cooling, rapid cooling increased pore sizes from 2.540 nm to 2.936 nm and increased the specific surface area from 578.224 m2/g to 1176.344 m2/g. Futhermore, rapid cooling method reduced the number of carboxyl and lactone groups and increased the number of hydroxyl groups. In electrochemical testing, carbon electrodes prepared from the AC showed excellent double- layer capacitance performance, with a substantial increase in specific capacitance from 66.06 F/g to 101.68 F/g and lower impedance.

机译：活性炭（AC）是通过H3PO4活化椰子壳制备的。活化后，立即用液氮快速冷却处理AC，以防止自然冷却过程中通常观察到的孔堵塞，从而防止孔径和孔体积减小。与缓慢冷却相比，快速冷却将孔径从2.540 nm增加到2.936 nm，比表面积从578.224 m2 / g增加到1176.344 m2 / g。此外，快速冷却方法减少了羧基和内酯基的数目并增加了羟基的数目。在电化学测试中，由交流电制备的碳电极表现出出色的双层电容性能，比电容从66.06 F / g大幅增加至101.68 F / g，并且阻抗更低。

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《International Journal of Electrochemical Science》 |2017年第8期|共9页
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Ming Zhang; Yonggang Li; Hongyu Si; Bing Wang; Tao Song;
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1. The evolution of the pore structure of coconut shells during the preparation of coconut shell-based activated carbons [J] . Osei-Wusu Achaw, George Afrane Microporous and mesoporous materials: The offical journal of the International Zeolite Association . 2008,第1a3期

机译：椰子壳基活性炭制备过程中椰子壳孔结构的演变
2. Effects of Heating Method and Activating Agent on the Porous Structure of Activated Carbons from Coconut Shells [J] . Xin-hui Duan, C. Srinivasakannan, Kun-bin Yang, Waste and biomass valorization . 2012,第2期

机译：加热方式和活化剂对椰子壳活性炭多孔结构的影响
3. Preparation and Characterization of Single and Mixed Activated Carbons Derived from Coconut Shell and Palm Kernel Shell through Chemical Activation Using Microwave Irradiation System [J] . Siti Anis Mohd Amran, Khudzir Ismail, Azil Bahari Alias, Materials science forum . 2017,第期

机译：微波辐射化学活化法制备椰子壳和棕榈仁壳单活性炭和混合活性炭
4. High density Polyethylene plastic waste treatment with microwave heating pyrolysis method using coconut-shell activated carbon to produce alternative fuels [C] . S R Juliastuti, M I Hisbullah, M Abdillah International Conference on Chemical Engineering Sciences and Applications . 2018

机译：高密度聚乙烯塑料废弃物处理微波加热热解法使用椰壳活性炭产生替代燃料
5. Adsorption curve fits for landfill VOCs on bituminous coal based and coconut shell based activated carbon. [D] . Athappan, Annaprabha. 2008

机译：吸附曲线适合于烟煤和椰子壳基活性炭上的垃圾填埋场VOC。
6. Enhancement of the electrochemical properties of commercial coconut shell-based activated carbon by H2O dielectric barrier discharge plasma [O] . Xin Wang, Xiaoyan Zhou, Weimin Chen, 2019

机译：H2O介质阻挡放电等离子体增强商品椰子壳基活性炭的电化学性能
7. Preparation and Characterization of Activated Carbons from Bitter Kola (Garcinia kola) Nut Shells by Chemical Activation Method Using H3PO4; KOH and ZnCl2 [O] . Kuete Tiotsop Idris-Hermann, Tchuifon Tchuifon Donald Raoul, Doungmo Giscard, 2018

机译：用H3PO4通过化学活化法制备苦-LOLA（Garcinia Kola）坚果壳活性炭的制备与表征; KOH和ZNCL2.

Preparation and Electrochemical Performance of Coconut Shell Activated Carbon Produced by the H3PO4 Activation with Rapid Cooling Method

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Preparation and Electrochemical Performance of Coconut Shell Activated Carbon Produced by the H₃PO₄ Activation with Rapid Cooling Method