張玉媛,,博士研究生,副教授
電子郵箱:[email protected]
研究方向:(1)固廢高值化再利用,;(2)碳基功能材料在能源環(huán)境領(lǐng)域應(yīng)用;(3)光電催化材料
科研項(xiàng)目
1. 生物炭/TiO2復(fù)合材料多途徑熱成型與吸附–降解四環(huán)素耦合機(jī)制研究,,國(guó)家自然科學(xué)基金青年基金項(xiàng)目,202001-202212,,主持
2. 生物炭/TiO2復(fù)合材料熱成型與降解VOCs機(jī)制研究,,華中科技大學(xué)煤燃燒國(guó)家重點(diǎn)實(shí)驗(yàn)室開(kāi)放基金,201801-201912,,主持
3. 生物炭/TiO2復(fù)合材料制備及其吸附–降解有機(jī)污染物性能研究,,中國(guó)科學(xué)院可再生能源重點(diǎn)實(shí)驗(yàn)室開(kāi)放基金,201801-201912,,主持
4. 有機(jī)廢棄物高效熱轉(zhuǎn)化與產(chǎn)物高值化利用,,清遠(yuǎn)市科博環(huán)保技術(shù)有限公司,,202001-202312,,主持
論文成果
1. Yuyuan Zhang, Jichuan Zhang, Kaidong Chen, et al. Engineering banana-peel-derived biochar for the rapid adsorption of tetracycline based on double chemical activation. Resources, Conservation and Recycling 190 (2023): 106821.
2. Yuyuan Zhang, Kaidong Chen, Jichuan Zhang, et al. Dense and uniform growth of TiO2 nanoparticles on the pomelo-peel-derived biochar surface for efficient photocatalytic antibiotic degradation. Journal of Environmental Chemical Engineering 11(2023): 109358.
3. Yuyuan Zhang, Lifang Deng, et al. Pomelo peel-derived, N-doped biochar microspheres as an efficient and durable metal-free ORR catalyst in microbial fuel cells, Sustainable Energy & Fuels, 2020, 4(4), 1642-1653.
4. Yuyuan Zhang, Huawen Hu, Wanwen Kang, et al. Enhancing hydrogen evolution by photoelectrocatalysis of water splitting over a CdS flowers-loaded TiO2 nanotube array film on the Ti foil substrate,Ceramics International, 2020, 46(11), 17606-17613.
5. Yuyuan Zhang, Huawen Hu, Menglei Chang, et al. Template-free scalable synthesis of TiO2 hollow nanoparticles for excellent photoelectrochemical applications. Journal of Materials Science, 2018, 53(3), 2102-2114.
6. Yuyuan Zhang, Huawen Hu, Menglei Chang et al. Non-uniform doping outperforms uniform doping for enhancing the photocatalytic e?ciency of Au-doped TiO2 nanotubes in organic dye degradation. Ceramics International, 2017, 43(12), 9053-9059.
7. Jichuan Zhang, Yuyuan Zhang*, Hongyu Huang, et al. Exploration of highly porous biochar derived from dead leaves to immobilize LiOH·H2O nanoparticles for efficient thermochemical heat storage applications, Energy Technology, 2022, 10(5): 2101127.
