Jun Wen
Guangxi University
10 Papers
Jun Wen is an academic researcher from Guangxi University. The author has contributed to research in topics: Adsorption & Chemistry. The author has an hindex of 8, co-authored 10 publications.
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Papers
Performance of magnetic graphene oxide/diethylenetriaminepentaacetic acid nanocomposite for the tetracycline and ciprofloxacin adsorption in single and binary systems.
Meifang Li,Yunguo Liu,Shaobo Liu,Guangming Zeng,Xinjiang Hu,Xiaofei Tan,Luhua Jiang,Ni Liu,Jun Wen,Xiang-hui Liu +9 more
- 01 Jul 2018
TL;DR: The findings showed that DDMGO was an efficient and reusable adsorbent for antibiotics elimination and had an excellent regeneration performance in single and binary systems.
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The effect of several activated biochars on Cd immobilization and microbial community composition during in-situ remediation of heavy metal contaminated sediment.
Sijia Liu,Yunguo Liu,Xiaofei Tan,Guangming Zeng,Yahui Zhou,Shaobo Liu,Yin Zhihong,Luhua Jiang,Meifang Li,Jun Wen +9 more
TL;DR: The indigenous microbial community was affected and new microbial community appeared after treat by activated biochar, and Activated biochar can be used as an inexpensive and efficient in situ remediation material of sediment containing metal.
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Removal of 17β-estradiol from aqueous solution by graphene oxide supported activated magnetic biochar: Adsorption behavior and mechanism
Shaobo Liu,Meifang Li,Yunguo Liu,Ni Liu,Xiaofei Tan,Luhua Jiang,Jun Wen,Xinjiang Hu,Yin Zhihong +8 more
TL;DR: In this article, a novel graphene oxide supported activated magnetic biochar (GO-AMBC) was fabricated for 17β-estradiol (E2) removal from aqueous solution by grafting graphene oxide (GO) and magnetite nanoparticles onto the activated biochar surface with a one-step activation, magnetization, and carbonization method.
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Appraising the effect of in-situ remediation of heavy metal contaminated sediment by biochar and activated carbon on Cu immobilization and microbial community
TL;DR: In this paper, the authors compared the performance of rice husk biochar and activated carbon (AC) with in-situ remediation of sediment in a sequential extraction experiment.
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Catalytic degradation of sulfamethoxazole by persulfate activated with magnetic graphitized biochar: Multiple mechanisms and variables effects
TL;DR: In this article, magnetic graphitized biochar (GMBC) was synthesized via a facile one-step strategy employing pine wood-derived biochar as precursor and with potassium ferrate (K2FeO4) modification, and introduced as heterogeneous catalyst for persulfate (PS) activation and sulfamethoxazole (SMZ) degradation.
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