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@article{ART003144588},
author={Chen Wang and Liu Bingguo and Luo Guolin and Yuwen Chao and Peng Fang and Gong Siyu and Hou Keren and An Yunfei and Ji Guangxiong and Wu Bangjian},
title={KOH etching catalyzed microwave pyrolysis of waste tires to prepare porous graphene},
journal={Carbon Letters},
issn={1976-4251},
year={2024},
volume={34},
number={8},
pages={2195-2209},
doi={10.1007/s42823-024-00804-3}

TY - JOUR
AU - Chen Wang
AU - Liu Bingguo
AU - Luo Guolin
AU - Yuwen Chao
AU - Peng Fang
AU - Gong Siyu
AU - Hou Keren
AU - An Yunfei
AU - Ji Guangxiong
AU - Wu Bangjian
TI - KOH etching catalyzed microwave pyrolysis of waste tires to prepare porous graphene
JO - Carbon Letters
PY - 2024
VL - 34
IS - 8
PB - Korean Carbon Society
SP - 2195
EP - 2209
SN - 1976-4251
AB - A substantial quantity of discarded tires has inflicted harm on the environment. Microwave pyrolysis of discarded tires emerges as an efficient and environmentally friendly method for their recycling. This research innovatively utilizes the characteristics of microwave rapid and selective heating to pyrolyze waste tires into porous graphene under the catalysis of KOH etching. Moreover, this study comprehensively investigates the dielectric characteristics and heating behavior of waste tires and different proportions of waste tire–KOH mixtures. It validates the preparation of graphene through KOH-catalyzed microwave pyrolysis of waste tires, tracking morphological and structural changes under varying temperature conditions. The results indicate that optimal dielectric performance of the material is achieved at an apparent density of 0.68 g/cm3 at room temperature. As the temperature increases, the dielectric constant gradually rises, particularly reaching a notable increase around 700 °C, and then stabilizes around 750 °C. Additionally, the study investigates the penetration depth and reflection loss of mixtures with different proportions, revealing the waste tire–KOH mass ratio of 1:2 demonstrates favorable dielectric properties. This research highlights the impressive microwave responsiveness of the waste tire–KOH mixture, Upon the addition of KOH, the mixed material exhibits an augmented dielectric constant and relative dielectric constant, supporting the viability of KOH-catalyzed microwave pyrolysis for producing porous graphene from waste tires. This method is expected to provide a new method for the valuable reuse of waste tires and a technology for large-scale, efficient and environmentally friendly production of graphene.
KW - Dielectric properties KOH etching catalysis Microwave pyrolysis Porous graphene Waste tires
DO - 10.1007/s42823-024-00804-3
ER -

Chen Wang, Liu Bingguo, Luo Guolin, Yuwen Chao, Peng Fang, Gong Siyu, Hou Keren, An Yunfei, Ji Guangxiong and Wu Bangjian. (2024). KOH etching catalyzed microwave pyrolysis of waste tires to prepare porous graphene. Carbon Letters, 34(8), 2195-2209.

Chen Wang, Liu Bingguo, Luo Guolin, Yuwen Chao, Peng Fang, Gong Siyu, Hou Keren, An Yunfei, Ji Guangxiong and Wu Bangjian. 2024, "KOH etching catalyzed microwave pyrolysis of waste tires to prepare porous graphene", Carbon Letters, vol.34, no.8 pp.2195-2209. Available from: doi:10.1007/s42823-024-00804-3

Chen Wang, Liu Bingguo, Luo Guolin, Yuwen Chao, Peng Fang, Gong Siyu, Hou Keren, An Yunfei, Ji Guangxiong, Wu Bangjian "KOH etching catalyzed microwave pyrolysis of waste tires to prepare porous graphene" Carbon Letters 34.8 pp.2195-2209 (2024) : 2195.

Chen Wang, Liu Bingguo, Luo Guolin, Yuwen Chao, Peng Fang, Gong Siyu, Hou Keren, An Yunfei, Ji Guangxiong, Wu Bangjian. KOH etching catalyzed microwave pyrolysis of waste tires to prepare porous graphene. 2024; 34(8), 2195-2209. Available from: doi:10.1007/s42823-024-00804-3

Chen Wang, Liu Bingguo, Luo Guolin, Yuwen Chao, Peng Fang, Gong Siyu, Hou Keren, An Yunfei, Ji Guangxiong and Wu Bangjian. "KOH etching catalyzed microwave pyrolysis of waste tires to prepare porous graphene" Carbon Letters 34, no.8 (2024) : 2195-2209.doi: 10.1007/s42823-024-00804-3

Chen Wang; Liu Bingguo; Luo Guolin; Yuwen Chao; Peng Fang; Gong Siyu; Hou Keren; An Yunfei; Ji Guangxiong; Wu Bangjian. KOH etching catalyzed microwave pyrolysis of waste tires to prepare porous graphene. Carbon Letters, 34(8), 2195-2209. doi: 10.1007/s42823-024-00804-3

Chen Wang; Liu Bingguo; Luo Guolin; Yuwen Chao; Peng Fang; Gong Siyu; Hou Keren; An Yunfei; Ji Guangxiong; Wu Bangjian. KOH etching catalyzed microwave pyrolysis of waste tires to prepare porous graphene. Carbon Letters. 2024; 34(8) 2195-2209. doi: 10.1007/s42823-024-00804-3

Chen Wang, Liu Bingguo, Luo Guolin, Yuwen Chao, Peng Fang, Gong Siyu, Hou Keren, An Yunfei, Ji Guangxiong, Wu Bangjian. KOH etching catalyzed microwave pyrolysis of waste tires to prepare porous graphene. 2024; 34(8), 2195-2209. Available from: doi:10.1007/s42823-024-00804-3

Chen Wang, Liu Bingguo, Luo Guolin, Yuwen Chao, Peng Fang, Gong Siyu, Hou Keren, An Yunfei, Ji Guangxiong and Wu Bangjian. "KOH etching catalyzed microwave pyrolysis of waste tires to prepare porous graphene" Carbon Letters 34, no.8 (2024) : 2195-2209.doi: 10.1007/s42823-024-00804-3