碳化作用
乙醇
热液循环
光催化
降级(电信)
溶剂
化学
化学工程
碳纤维
制浆造纸工业
催化作用
环境化学
材料科学
有机化学
复合数
计算机科学
工程类
复合材料
电信
作者
Jiashuai Hu,Jie Chen,Xiaoling Liu,Jie Liang,Ke Zhang,Bing Jiang,Hongbing Luo,Lin Li,Xiaochan An,Xiaobing Chen,Xiaojun Chen,Wei Chen,Wancen Xie,Yong Wang,Xiaohong Zhang
标识
DOI:10.1016/j.jclepro.2024.143941
摘要
Hydrothermal carbonation carbon (HTCC) is increasingly acknowledged as a promising photocatalytic material for degrading antibiotics in water due to its green and cost-effective properties. While ethanol and water are prevalent solvents in the preparation of HTCC, research examining the influence of solvent combinations on the photocatalytic efficacy of HTCC is lacking. The influence of various ethanol-water co-solvent preparation ratios (0, 20, 40, 60, 80, and 100 wt% ethanol concentration in the co-solvent) on the photocatalytic degradation activity of trimethoprim (TMP) by HTCC was examined in this study. The results indicated that altering ethanol solvent preparation concentrations modulates the morphological characteristics, surface functional groups, and photochemical attributes of co-solvent HTCC materials. HTCC prepared using an 80 wt% ethanol solvent concentration demonstrated the most efficient TMP photocatalytic degradation (>90%). The TMP degradation kinetic constants of 80 wt% ethanol concentration co-solvent HTCC were 3.29 and 1.51 times greater compared to those of HTCC prepared using only water or ethanol as solvents, respectively. •O 2 − predominantly served as the key reactive oxygen species in TMP photocatalytic decomposition by 80 wt% ethanol concentration co-solvent HTCC, with its generation mechanism linked to the intrinsic furan donor-acceptor (D-A) conjugated structure of HTCC. An increase in ethanol solvent preparation concentration promotes the formation of more furan units, increased coupling of donor-acceptor (D-A) conjugation, a lower D-A ratio, and enhanced generation of short-chain aliphatics in HTCC, which then directly impacts its electron transfer capability, bandgap structure, light absorption capacity, and photocatalytic degradation efficiency. This work provides fresh strategies for the preparation and photocatalytic performance modulation of water treatment photocatalysts based on HTCC. • Furan content and D-A ratio of HTCC modulated by wt% of C 2 H 5 OH preparation solvent. • The short-chain aliphatic content of HTCC impacted its light absorption capacity. • 80wt% Ethanol-HTCC had the best TMP photocatalytic degradation efficiency (>90%). • •O 2 - played a key role in TMP degradation.
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