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1. Wastewater treatment plant upgrade induces the receiving river ret.. [135]
2. 一种污水处理装置和方法 [123]
3. 一种高Al13含量聚合氯化铝的简易制备方法 [120]
4. Microplastic residues in wetland ecosystems: Do they truly threate.. [114]
5. Manganese oxides in Phragmites rhizosphere accelerates ammonia oxi.. [113]
6. 一种电#磁协同强化微电解处理高浓度工业废液和回收高值重金属的方法 [112]
7. Combining KMnO4 pre-oxidation and bioaugmented sand filtration to .. [112]
8. 一种颗粒物-水界面水质参数原位测量系统 [111]
9. 京津冀区域水资源及水环境调控与安全保障策略 [111]
10. Visualizing the Interfacial Charge Transfer between Photoactive Mi.. [111]
11. Three-Dimensional Analysis of the Natural-Organic-Matter Distribut.. [110]
12. 一种高精度pH微电极及其制作方法 [106]
13. Membrane fouling reduction through electrochemically regulating fl.. [106]
14. Arrayed Cobalt Phosphide Electrocatalyst Achieves Low Energy Consu.. [106]
15. Multiple dynamic Al-based floc layers on ultrafiltration membrane .. [104]
16. 混相介孔二氧化钛、制备方法及采用其光催化去除含砷有机污染物的处理方.. [103]
17. 一种电化学#膜分离水处理装置及其处理方法和用途 [102]
18. Using activated peroxymonosulfate by electrochemically generated F.. [102]
19. Enhanced Production of in Situ Keggin Al-13(7+) Polymer by a Combi.. [101]
20. Characteristics of microplastic removal via coagulation and ultraf.. [101]
21. Selective adsorption of fluoride from drinking water using NiAl-la.. [100]
22. Comparing adsorption of arsenic and antimony from single-solute an.. [98]
23. Efficient design principle for interfacial charge separation in hy.. [98]
24. Effects of 1-hydroxyethane-(1,1-bisphosphonic acid) on heterotroph.. [98]
25. Potential spreading risks and disinfection challenges of medical w.. [98]
26. 一种去除水中有机物的方法 [97]
27. Electrically Pore-Size-Tunable Polypyrrole Membrane for Antifoulin.. [97]
28. 一种去除高藻水中藻类及有机物的方法 [96]
29. 一种利用单个细胞代谢速率指标评价水质的方法 [95]
30. 电化学膜生物污水处理器 [94]
31. Development of Amyloid-Fibrils-like Functional Materials from Both.. [94]
32. Metagenomics Unravels Differential Microbiome Composition and Meta.. [94]
33. 一种高浓度有机砷废水处理与砷资源化回收的方法 [93]
34. Moderate KMnO4-Fe(II) pre-oxidation for alleviating ultrafiltratio.. [92]
35. 一种羟基镁@氧化石墨烯负载的碳纤维布的制备、应用及再生方法 [91]
36. 铁锰改性铜绿微囊藻对锑的吸附性能 [91]
37. Identification and quantification of bacterial genomes carrying an.. [91]
38. 一种PdNiAl金属氧化物膜电极及其制备方法和用途 [90]
39. Anaerobically-digested sludge disintegration by transition metal i.. [90]
40. 电化学水处理技术研究进展 [89]
41. Integrating microbial biomass, composition and function to discern.. [89]
42. 河岸过滤中氨氮的削减及其浓度对细菌与氨氧化微生物的影响 [89]
43. Fouling mitigation of a graphene hydrogel membrane electrode by el.. [89]
44. 微生物种间相互作用产生锰氧化的普适性及其潜在应用 [87]
45. 一种高锰酸钾#生物锰氧化联合去除水中有机物的方法 [86]
46. Comparison of the effects of aluminum and iron(III) salts on ultra.. [86]
47. Enhanced membrane fouling mitigation by modulating cake layer poro.. [86]
48. The effects of hydrogen peroxide pre-oxidation on ultrafiltration .. [86]
49. Effects of protein properties on ultrafiltration membrane fouling .. [86]
50. Pore Structure-Dependent Mass Transport in Flow-through Electrodes.. [85]
51. Arsenic adsorption on alpha-MnO2 nanofibers and the significance o.. [83]
52. A promising treatment method for Cr(VI) detoxification and recover.. [83]
53. Efficient Microcystis aeruginosa removal by moderate photocatalysi.. [83]
54. 基于“三明治”式松散絮体保护层的低压膜水处理技术 [82]
55. 一种基于表面氢氧壳层调控的光电极及其制备方法 [82]
56. Adsorption combined with superconducting high gradient magnetic se.. [81]
57. Oxidative removal of quinclorac by permanganate through a rate-lim.. [81]
58. 铁盐与铝盐对腈纶废水生化出水混凝特性的对比 [80]
59. Benzophenone-4 Promotes the Growth of a Pseudomonas sp and Biogeni.. [80]
60. Hierarchical Nanotubular Anatase/Rutile/TiO2(B) Heterophase Juncti.. [80]
61. Zinc Substitution-Induced Subtle Lattice Distortion Mediates the A.. [80]
62. Defect-enhanced photocatalytic removal of dimethylarsinic acid ove.. [80]
63. 一种去除水中硝酸盐氮的方法 [79]
64. 城市污水再生与循环利用的关键基础科学问题 [79]
65. 一种三元金属氧化物膜电极及其制备方法和用途 [79]
66. Graphitic N in nitrogen-Doped carbon promotes hydrogen peroxide sy.. [79]
67. 长江重点江段水体中多环芳烃及其衍生物的分布及健康风险 [79]
68. Development of nitrogen-doped carbon for selective metal ion captu.. [78]
69. Oxidation of iopamidol with ferrate (Fe(VI)): Kinetics and formati.. [78]
70. 一种高效稳定的铁锰复合氧化物催化剂及其制备方法与应用 [78]
71. 一种基于电场强化的零价铁净水方法和反应器 [77]
72. Fe(II)-regulated moderate pre-oxidation of & IT;Microcystis aerugi.. [77]
73. Impacts of water quality on the corrosion of cast iron pipes for w.. [77]
74. Integrated Fe-based floc-membrane process for alleviating ultrafil.. [77]
75. Specific anion effects on the stability of zeolitic imidazolate fr.. [77]
76. Municipal wastewater treatment in China: Development history and f.. [77]
77. Removal characteristics of microplastics by Fe-based coagulants du.. [77]
78. Use of convertible flow cells to simulate the impacts of anthropog.. [77]
79. 孟加拉国饮用水砷污染控制策略与方向 [77]
80. Deiodination of iopamidol by zero valent iron (ZVI) enhances forma.. [76]
81. Electrochemical oxidation of ammonia accompanied with electricity .. [76]
82. 电场强化膜生物污水处理器 [76]
83. Surface charge and hydrophilicity improvement of graphene membrane.. [76]
84. Hierarchically porous UiO-66 with tunable mesopores and oxygen vac.. [76]
85. Effects of bromide on the formation and transformation of disinfec.. [75]
86. Facile Dispersion of Nanosized NiFeP for Highly Effective Catalysi.. [75]
87. Enhancement of the Donnan effect through capacitive ion increase u.. [75]
88. Interface Stabilization of Undercoordinated Iron Centers on Mangan.. [75]
89. 程海湖夏冬季浮游植物群落结构与富营养化状况研究 [75]
90. Influence of sedimentation with pre-coagulation on ultrafiltration.. [75]
91. Regioselective oxidation of tetracycline by permanganate through a.. [75]
92. 颗粒物表面Al_(13)的拉曼表征方法研究 [74]
93. Reversible superwettability switching of a conductive polymer memb.. [74]
94. Ultrathin water-stable metal-organic framework membranes for ion s.. [74]
95. 一种基于电磁协同强化的零价铁净水方法和反应器 [73]
96. Evolving wastewater infrastructure paradigm to enhance harmony wit.. [73]
97. 一种截盐用rGOCNT三维复合导电膜及其制备方法和使用方法 [73]
98. 水中As(III)和As(V)一步法去除技术及应用 [72]
99. 一种Pd/NiAl金属氧化物膜电极及其制备方法和用途 [72]
100. Rapidly catalysis of oxygen evolution through sequential engineeri.. [72]

Downloads

1. 一种电化学#膜分离水处理装置及其处理方法和用途 [59]
2. Characteristics of microplastic removal via coagulation and ultraf.. [59]
3. 一种电#磁协同强化微电解处理高浓度工业废液和回收高值重金属的方法 [58]
4. 一种去除水中有机物的方法 [55]
5. 一种高Al13含量聚合氯化铝的简易制备方法 [52]
6. 一种高浓度有机砷废水处理与砷资源化回收的方法 [52]
7. 一种颗粒物-水界面水质参数原位测量系统 [48]
8. 一种污水处理装置和方法 [47]
9. 基于“三明治”式松散絮体保护层的低压膜水处理技术 [44]
10. 一种高锰酸钾#生物锰氧化联合去除水中有机物的方法 [44]
11. 一种高精度pH微电极及其制作方法 [44]
12. 一种基于电磁协同强化的零价铁净水方法和反应器 [41]
13. 一种羟基镁@氧化石墨烯负载的碳纤维布的制备、应用及再生方法 [41]
14. Wastewater treatment plant upgrade induces the receiving river ret.. [41]
15. Arsenic adsorption on alpha-MnO2 nanofibers and the significance o.. [38]
16. 京津冀区域水资源及水环境调控与安全保障策略 [38]
17. 一种PdNiAl金属氧化物膜电极及其制备方法和用途 [37]
18. 一种去除高藻水中藻类及有机物的方法 [37]
19. Comparison of the effects of aluminum and iron(III) salts on ultra.. [35]
20. 混相介孔二氧化钛、制备方法及采用其光催化去除含砷有机污染物的处理方.. [35]
21. 微生物种间相互作用产生锰氧化的普适性及其潜在应用 [35]
22. Development of Amyloid-Fibrils-like Functional Materials from Both.. [35]
23. 一种基于电场强化的零价铁净水方法和反应器 [34]
24. 一种基于表面氢氧壳层调控的光电极及其制备方法 [34]
25. 一种三元金属氧化物膜电极及其制备方法和用途 [33]
26. Benzophenone-4 Promotes the Growth of a Pseudomonas sp and Biogeni.. [33]
27. Comparing adsorption of arsenic and antimony from single-solute an.. [33]
28. 一种利用单个细胞代谢速率指标评价水质的方法 [33]
29. Use of convertible flow cells to simulate the impacts of anthropog.. [33]
30. Impacts of water quality on the corrosion of cast iron pipes for w.. [32]
31. 电化学膜生物污水处理器 [32]
32. Effects of protein properties on ultrafiltration membrane fouling .. [32]
33. Identification and quantification of bacterial genomes carrying an.. [32]
34. Metagenomics Unravels Differential Microbiome Composition and Meta.. [32]
35. 铁盐与铝盐对腈纶废水生化出水混凝特性的对比 [31]
36. 东部河网地区农村供排水一体化技术及应用 [31]
37. Efficient design principle for interfacial charge separation in hy.. [31]
38. Integrated Fe-based floc-membrane process for alleviating ultrafil.. [31]
39. Specific anion effects on the stability of zeolitic imidazolate fr.. [31]
40. 一种截盐用rGOCNT三维复合导电膜及其制备方法和使用方法 [31]
41. Zinc Substitution-Induced Subtle Lattice Distortion Mediates the A.. [31]
42. Influence of sedimentation with pre-coagulation on ultrafiltration.. [31]
43. Visualizing the Interfacial Charge Transfer between Photoactive Mi.. [31]
44. 饮用水处理工艺改革的方向与愿景 [30]
45. 电化学水处理技术研究进展 [30]
46. Interface Stabilization of Undercoordinated Iron Centers on Mangan.. [30]
47. Pore Structure-Dependent Mass Transport in Flow-through Electrodes.. [30]
48. 电场强化膜生物污水处理器 [30]
49. Removal characteristics of microplastics by Fe-based coagulants du.. [30]
50. 一种去除水中硝酸盐的装置 [29]
51. 城市污水再生与循环利用的关键基础科学问题 [29]
52. Moderate KMnO4-Fe(II) pre-oxidation for alleviating ultrafiltratio.. [29]
53. Multiple dynamic Al-based floc layers on ultrafiltration membrane .. [29]
54. Facile Dispersion of Nanosized NiFeP for Highly Effective Catalysi.. [28]
55. The effects of hydrogen peroxide pre-oxidation on ultrafiltration .. [28]
56. Modulation of cation trans-membrane transport in GO-MoS2 membranes.. [28]
57. Selective adsorption of fluoride from drinking water using NiAl-la.. [28]
58. Denitrification enhancement by electro-sorption/reduction using a .. [28]
59. Graphitic N in nitrogen-Doped carbon promotes hydrogen peroxide sy.. [28]
60. 一种化学还原辅助电化学法去除水中六价铬的方法 [27]
61. Enhancement of the Donnan effect through capacitive ion increase u.. [27]
62. Membrane fouling reduction through electrochemically regulating fl.. [27]
63. Enhanced Production of in Situ Keggin Al-13(7+) Polymer by a Combi.. [27]
64. Polyoxometalates/TiO2 Fenton-like photocatalysts with rearranged o.. [27]
65. 河岸过滤中氨氮的削减及其浓度对细菌与氨氧化微生物的影响 [27]
66. Fouling mitigation of a graphene hydrogel membrane electrode by el.. [27]
67. Reversible superwettability switching of a conductive polymer memb.. [27]
68. Influence of floc dynamic protection layer on alleviating ultrafil.. [27]
69. Manganese oxides in Phragmites rhizosphere accelerates ammonia oxi.. [27]
70. 一种利用藻毒素产毒基因研究氮磷对藻毒素生成影响的方法 [26]
71. Development of nitrogen-doped carbon for selective metal ion captu.. [26]
72. Fe(II)-regulated moderate pre-oxidation of & IT;Microcystis aerugi.. [26]
73. 利用滤池中生物铁锰氧化物强化去除水中砷锑离子的方法 [26]
74. Electrically Pore-Size-Tunable Polypyrrole Membrane for Antifoulin.. [26]
75. Carbon nanodot-modified FeOCI for photo -assisted Fenton reaction .. [26]
76. Hierarchically porous UiO-66 with tunable mesopores and oxygen vac.. [26]
77. Efficient Microcystis aeruginosa removal by moderate photocatalysi.. [26]
78. Using activated peroxymonosulfate by electrochemically generated F.. [26]
79. Deiodination of iopamidol by zero valent iron (ZVI) enhances forma.. [25]
80. Enhanced membrane fouling mitigation by modulating cake layer poro.. [25]
81. 一种高效稳定的铁锰复合氧化物催化剂及其制备方法与应用 [25]
82. Preferential binding between intracellular organic matters and Al-.. [25]
83. Regioselective oxidation of tetracycline by permanganate through a.. [25]
84. 处理重金属络合物废水以及从中回收重金属离子的光电催化方法 [24]
85. 一种Pd/NiAl金属氧化物膜电极及其制备方法和用途 [24]
86. Intensification of anodic charge transfer by contaminant degradati.. [24]
87. Rapidly catalysis of oxygen evolution through sequential engineeri.. [24]
88. Strongly Coupled Metal Oxide/Reassembled Carbon Nitride/Co-Pi Hete.. [24]
89. Defect-enhanced photocatalytic removal of dimethylarsinic acid ove.. [24]
90. Potential spreading risks and disinfection challenges of medical w.. [24]
91. 一种电化学同步脱氮除磷装置及城市污水处理方法 [23]
92. 一种基于pH指示分级投加H2O2调控多级串联感应电芬顿的方法 [23]
93. Evolving wastewater infrastructure paradigm to enhance harmony wit.. [23]
94. Effect of ozonation on the characteristics of effluent organic mat.. [23]
95. Nitrate electro-sorption/reduction in capacitive deionization usin.. [23]
96. Oxidative removal of quinclorac by permanganate through a rate-lim.. [23]
97. Ultrafiltration membrane fouling induced by humic acid with typica.. [23]
98. 铁锰改性铜绿微囊藻对锑的吸附性能 [23]
99. Enhanced Stabilization and Effective Utilization of Atomic Hydroge.. [23]
100. Micro-electrode system designed to determine H+ concentration dist.. [23]