从事专业领域

环境工程、材料、化学

主要科研成果

学术论文

近五年以第一作者及通讯作者在J Hazard MaterACS Appl. Mater. InterfacesJ Cleaner ProdChem. Eng. JLangmuirJ. Colloid Interface SciFront. ChemAppl. Clay Sci.SCI学术期刊发表论文39篇,中文EiCSCD等论文50余篇其中部分代表性论文如下:

1 Ping Zhang*, Mingxue Xiang, Sida Ouyang, Shuqi Yu, Nengshui Ding, et al. In-situ synthesis/purification integration strategy for simultaneous capture of ammonium and phosphorus from digested piggery wastewater using magnesi‐ um-doped tricalcium aluminate. Chemical Engineering Journal. 2021,426,131494 (SCI,一区TOP,IF:13.273)

2 Ping Zhang,*, Mingxue Xianga, Tao Hea, Huiling Liub, Shuqi Yua, Xuemei Pana, Fangfang Qiua, Zhongbang Zhua, Youqin Zoua, and Yu Chenc,d,*. High-efficiency water purification for methyl orange and lead(II) by eco-friendly magnetic sulfur-doped graphene-like carbon-supported layered double oxide.Journal of Hazardous Materials.2021,419,126406 (SCI,一区TOP,IF:10.588)

3 Ping Zhang*, Mingxue Xiang, Huiling Liu, Chenkai Yang, and Shuguang Deng. Novel Two-Dimensional Magnetic Titanium Carbide for Methylene Blue Removal over a Wide pH Range: Insight into Removal Performance and Mechanism. ACS Applied Materials & Interface. 2019, 11, 24027-24036 (SCI,一区TOP, IF:9.229)

4 Ping Zhang*, Xianzhe Zeng, Xiaohan Wen, Chenkai Yang, Sida Ouyang, Peng Li, Zi Gu, et al. Insights into Efficient Removal and Mechanism for Ammonium from Aqueous Solution on Tricalcium Aluminate. Chemical Engineering Journal. 2019, 36611-20 (SCI,一区TOP,IF:13.273)

5 Ping Zhang*, Sida Ouyang, Peng Li, Yun Huang, Ray L. Frost. Enhanced removal of ionic dyes by hierarchical organic three-dimensional layered double hydroxide prepared via soft-template synthesis with mechanism study.Chemical Engineering Journal. 2019, 360: 1137–1149. (SCI,一区TOP,IF:13.273)

6 Ping Zhang*, Yue Cai, Lingjie Zhang, Yuting Mao, Mingxue Xiang, Zhongbang Zhu, Youqin Zou*. Superior selective removal of lead via sulfate doped flower like layered double oxide: An example of high value-added utilization of organic waste Journal of Cleaner Production.2021,307,127267 (SCI,一区TOP, IF: 9.279)

7 Ping Zhang*, Sida Ouyang, Peng Li, Zhaoyi Sun, Nengshui Ding, Yun Huang*. Ultrahigh removal performance of lead from wastewater by tricalcium aluminate via precipitation combining flocculation with amorphous aluminum.Journal of Cleaner Production. 2020, 24: 118728 (SCI,一区TOP, IF: 9.279)

8 Xuemei Pan, Miaomiao Zhang, Huiling Liu, Sida Ouyang, Nengshui Ding, Ping Zhang*. Adsorption behavior and mechanism of acid orange 7 and methylene blue on self-assembled three-dimensional MgAl layered double hydroxide: Experimental and DFT investigation. Applied Surface Science. 2020, 522:146370 (SCI, 一区TOP, IF: 6.707)

9 Yuting Mao, Shuqi Yu, Peng Li, Guoping Liu, Sida Ouyang, Zhongbang Zhu, Ping Zhang*. A novel magnesium-rich tricalcium aluminate for simultaneous removal of ammonium and phosphorus: Response surface methodology and mechanism investigation. Environmental Research. 2021, 195, 110719 (SCI, TOP, IF: 6.498 )

10 Ping Zhang*, Tao He, Peng Li, Xianzhe Zeng, Yun Huang*. New Insight into the Hierarchical Microsphere Evolution of Organic Three-Dimensional Layer Double Hydroxide. Langmuir.2019,35, 13562. (SCI, 二区TOP, IF: 3.882)

专利情况

2017年以来,申请国家专利9项,其中授权国家发明专利3项,国家实用新型专利3项。国家发明专利列表如下:

1 章萍,陈雨,相明雪,马若男,欧阳思达. 一种二维磁性MXene对印染废水中亚甲基蓝去除方法, 201711118613.5, 授权时间:2020424国家发明专利

2 章萍*,欧阳思达,相明雪,马若男,曾宪哲.一种富镁铝酸三钙的制备方法及其在养猪沼液中氮磷去除的应用. 201810177683.6 授权时间2021115

3 章萍*相明雪,何涛,潘雪梅,曾宪. 一种以粉煤灰为原料同步合成沸石及LDH方法. 201810906032.6 授权时间2021225

学生科研指导情况

2017年起,先后指导了研究生12人,其中7人获国家奖学金、1人获2次省级奖学金,5人获研究生创新基金(其中省级4项,校级1项),2人分别获2016年和2018年江西省优秀硕士学位论文

指导本科生9人获创新科研项目,其中国家级3项,省级2项,校级4指导本科生参加第十七届挑战杯江西省大学生课外学术科技作品竞赛获省三等奖;指导本科生中1国家奖学金,多人保送清华大学南京大学、复旦大学、上海交通大学、哈尔滨工业大学等高校攻读硕士学位

在研基金项目简介

目前在研国家自然基金2项,其中

层间限域热解法可控合成磁性-掺杂石墨烯类碳/双金属氧化物及其协同吸附-催化养猪尾水中氨氮、磷及有机物研究

简介:经生化处理后的养猪尾水常富含氨氮、磷及有机物,迄今尚缺经济、实用的处理技术使其达标排放或全量化农用。秉承以废治废思想,以亟需高值资源化处置的有机LDHs为原料,借助其层间限域效应,以无氧高温热解法可控合成磁性-掺杂石墨烯类碳复合双金属氧化物(M-G@LDO),并将其投至养猪尾水,利用磁性易固液分离、G@LDO可吸附-催化协同处理氨氮、磷及有机物的物化特性,有望实现养猪尾水处理技术的突破,从而有机LDHs绿色处置、养猪尾水低成本深度处理提供理论依据和技术支持。

矿山酸性废水中多孔连通型粉煤灰泡沫混凝土的原位合成与重金属、硫酸根离子高效共去

简介:矿山酸性废水多富含重金属及硫酸根离子,中和、沉淀等常规处理法物耗、成本高,且二次污染严重。秉承以废治废的思想,借助粉煤灰、水泥水化产物C-S-H和钙铝LDHs的协同效应,在原位固定废水重金属及硫酸根离子的同时,诱导多孔连通型粉煤灰泡沫混凝土形成,将经济、环保地实现废水自净化。项目通过揭示酸性矿山废水中多孔连通型粉煤灰泡沫混凝土的合成机理及其控制机制,有望指导、优选合成工艺使其最宜于酸性废水处理,且容纳污染物的产物,可作为绿色建材资源化回收,无二次污染。

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