检索结果分析
成果/Result
| 题名 | 作者 | 出处 | 被引量 | 操作 | |
|---|---|---|---|---|---|
| 气泡羽流空隙率的计算及其不稳定规律的研究 | 宋策[1];程文[1,2];胡保卫[1,3]; | 《水利学报》 | 13 | ||
| 超稳定偕胺肟功能化共价有机框架用于高效选择性海水提铀 | 程功[1,2];张安睿[1];赵志伟[1]; | 《科学通报:英文版》 | 11 | ||
| KOH改性污泥生物碳及对富营养化水体吸附研究 | 周树烽[1];陈成广[1];刘允初[1]; | 《环境科学与技术》 | 11 | ||
| 双季晚稻田灌溉径流氮磷分布特征研究 | 陈成广[1];赵轻舟[2];胡保卫[3] | 《水利学报》 | 10 | ||
| Efficient elimination of environmental pollutants through sorption-reduction and photocatalytic degradation using nanomaterials | Njud SAlharbi[1];Baowei Hu[2]; | [1]Department of Biological Sciences,Faculty of Science,King Abdulaziz University,Jeddah 21589,Saudi Arabia;[2]School of Life Science,Shaoxing University,Shaoxing 312000,China;[3]Department o f Mathematics,Quaid-I-Azam University,Islamabad 44000,Pakistan;[4]College of Environmental Science and Engineering,North China Electric Power University,Beijing 102206,China;[5]State Key Laboratory of Radiation Medicine and Protection,School of Radiation Medicine and Protection,Soochow University,Suzhou 215123,China | 10 | ||
| 基于流域降雨强度的氮磷输出系数模型改进及应用 | 徐立红[1];陈成广[2];胡保卫[3]; | 《农业工程学报》 | 8 | ||
| 稻草生物炭对铕的吸附行为及机理研究 | 董丽佳[1];吴思颖[1];李生波[1]; | 《无机材料学报》 | 8 | ||
| 曝气生物滤池降解规律试验研究 | 胡保卫[1,2];程文[1,3];韩祯[1]; | 《水利学报》 | 7 | ||
| Adsorption and mechanistic study of the invasive plant-derived biochar functionalized with CaAl-LDH for Eu(Ⅲ) in water | Shengbo Li[1];Lijia Dong[1];Zu | [1]School of Life Science,School of Chernistry and Chemical Engineering,Shaoxing University,Shaoxing 312000,China;[2]School of Life Science,Shanxi Normal Uniuersity,Linfen 041004,China | 7 | ||
| THE VELOCITY FIELD OF MULTIPHASE FLOW AND EFFICIENCY OF BIOLOGICAL AERATION FILTER | Cheng Wen[2,3];Hu Bao-wei[1,4] | JOURNAL OF HYDRODYNAMICS | 6 | ||
| 农沟底泥和水稻秸秆热解制备生物碳球及其氨氮吸附研究 | 陈成广[1];周树烽[1];胡保卫[2]; | 《水利学报》 | 2 | ||
| Application of aluminosilicate clay mineral-based composites in photocatalysis | Yingtong Zou[1,2];Yezi Hu[1];Z | Journal of Environmental Sciences | 2 | ||
| Recent Progress on Metal-Enhanced Photocatalysis:A Review on the Mechanism | Ming Fang[1,2];Xiaoli Tan[1];Z | Research | 2 | ||
| Constructing coconut shell biochar/MXenes composites through self-assembly strategy to enhance U(Ⅵ)and Cs(Ⅰ)immobilization capability | Fenglei Liu[1,2];Shanshan Wang | 生物炭(英文) | 1 | ||
| Defect engineering on constructing surface active sites in catalysts for environment and energy applications | Yawen Cai[1,2];Baowei Hu[1];Xi | 化学科学与工程前沿(英文版) | 0 | ||
| Biochar-based materials in environmental pollutant elimination,H_(2) production and CO_(2) capture applications | Lin Fang[1];Tao Huang[2];Hua L | 生物炭(英文) | 0 | ||
| Low-temperature plasma induced phosphate groups onto coffee residue-derived porous carbon for efficient U(Ⅵ) extraction | Zhongshan Chen[1,2];Xuan He[2] | Journal of Environmental Sciences | 0 | ||
| Mechanistic insights into sequestration of U(VI) toward magnetic biochar: Batch, XPS and EXAFS techniques | Qingyuan Hu[1];Yuling Zhu[1];B | [1]College of Life Science, College of Chemistry and Chemical Engineering, Shaoxing University;[2]Institute of Plasma Physics, Chinese Academy of Science | 0 | ||
| Insights into Photothermally Enhanced Photocatalytic U(VI)Extraction by a Step-Scheme Heterojunction | Yifeng Zhang[1];Haorong Sun[1] | Research | 0 | ||
| Hedgehog信号通路对肝脏损伤修复作用的研究进展 | 金立方[1];倪坚[1];闫俊艳[1];韩 | 《中国细胞生物学学报》 | 0 |
