【论文】https://orcid.org/0000-0002-4645-373X
1) Na Zhao, Dawei Liang*, Hong Liu, Shujuan Meng, Xiaohu Li, Efficient H2 production in a novel separator electrode assembly (SEA) microbial electrolysis cell. Chem. Eng. J. 2023, 138561
2) Qinghao Wu, Dawei Liang*, Shanfu Lu, Haining Wang, Yan Xiang, Doron Aurbach, Eran Avraham, Izaak Cohen, Advances and perspectives in integrated membrane capacitive deionization for water desalination. Desalination, 2022, 542, 116043
3) Chao Qu, Dawei Liang*, Novel electrochemical advanced oxidation processes with H2O2 generation cathode for water treatment: A review. J. Environ. Chem. Eng., 2022, 10, 3, 107896
4) Chao Qu, Yan-gang Li, Shu-juan Meng, Xiao-hu Li, Shu-jun Zhang, Da-wei Liang*. Enhanced refractory organics removal by• OH and 1O2 generated in an electro-oxidation system with cathodic Fenton-like reaction. J. Hazard. Mater., 2022, 434, 128923
5) Shujuan Meng, Rui Wang, Xianghao Meng, Ying Wang, Wenhong Fan, Dawei Liang*, Meng Zhang, Yuan Liao, Chuyang Tang, Reaction heterogeneity in the bridging effect of divalent cations on polysaccharide fouling, J. Membr. Sci., 2022, 641, 119933
6) Qinghao Wu, Dawei Liang, Shanfu Lu, Jin Zhang, Haining Wang, Yan Xiang, Doron Aurbach, Novel Inorganic Integrated Membrane Electrodes for Membrane Capacitive Deionization, ACS Appl. Mater. Interfaces 2021, 13, 39, 46537–46548
7) Meng, S., Wang, R., Zhang, K., Meng, X., Xue, W., Liu, H., Liang, D., Zhao, Q., Liu, Y., 2021. Transparent exopolymer particles (TEPs)-associated protobiofilm: A neglected contributor to biofouling during membrane filtration. Front. Environ. Sci. Eng. 15, 1–10. https://doi.org/10.1007/s11783-020-1361-7
8) Zhao, N., Liang, D., Li, X., Meng, S., Liu, H., Hydrophilic porous materials provide efficient gas-liquid separation to advance hydrogen production in microbial electrolysis cells. Bioresour. Technol. 2021, 337, 125352. https://doi.org/10.1016/j.biortech.2021.125352
9) Chao Qu, Na Ren, Shu-jun Zhang, Yan-gang Li, Shu-juan Meng, Xiao-hu Li, Shan-quan Wang, Da-wei Liang*, An-ran Li. Degradation of triclosan by anodic oxidation/in-situ peroxone process: Kinetics, pathway and reaction mechanism. Chemosphere 2021, 272, 129453. https://doi.org/10.1016/J.CHEMOSPHERE.2020.129453
10) Zhao, N., Liang, D., Meng, S., Li, X.,Bibliometric and content analysis on emerging technologies of hydrogen production using microbial electrolysis cells. Int. J. Hydrogen Energy 2020, 45, 33310–33324. https://doi.org/10.1016/j.ijhydene.2020.09.104
11) Xiaohu Li, Si Chen, Dawei Liang, Merlin Alvarado-Moralesa, Low-grade heat energy driven microbial electrosynthesis for ethanol and acetate production from CO2 reduction. J. Power Sources 2020, 477, 228990. https://doi.org/10.1016/j.jpowsour.2020.228990
12) Qinghao Wu, Dawei Liang, Eran Avraham, Izaak Cohen, Doron Aurbach, Shanfu Lu, Haining Wang, Yan Xiang, Enhanced capacitive deionization of an integrated membrane electrode by thin layer spray-coating of ion exchange polymers on activated carbon electrode. Desalination 2020, 491, 114460. https://doi.org/10.1016/j.desal.2020.114460
13) Ghulam Sarwar Soomro, Chao Qu, Na Ren, Shujuan Meng, Xiaohu Li, Dawei Liang*, Shujun Zhang, Yangang Li, Efficient removal of refractory organics in landfill leachate concentrates by electrocoagulation in tandem with simultaneous electro-oxidation and in-situ peroxone. Environmental Research, 2020, 183, 109249
14) Chao Qu, Ghulam Sarwar Soomro, Na Ren, Da-wei Liang*, Shan-fu Lu, Yan Xiang, Shu-jun Zhang, Enhanced electro-oxidation/peroxone (in situ) process with a Ti-based nickel-antimony doped tin oxide anode for phenol degradation.
Journal of hazardous materials 2020, 384, 121398
15) Huang, C., Liu, H., Meng, S., Liang, D., 2020. membranes Effect of PAC on the Behavior of Dynamic Membrane Bioreactor Filtration Layer Based on the Analysis of Mixed Liquid Properties and Model Fitting. Membranes (Basel). 10, 420. https://doi.org/10.3390/membranes10120420
16) Qinghao Wu, Dawei Liang*, Xiumei Ma, Shanfu Lu, Yan Xiang, Chitosan-based activated carbon as economic and efficient sustainable material for capacitive deionization of low salinity water. RSC Advances, 2019, 9(46), 26676-26684
17) Yanan Fu, Yongjia Zhang Bojian, Dawei Liang*, Shanfu Lu, Yan Xiang, Beizhen Xie, Hong Liu, Kenneth H. Nealson, Extracellular electron transfer of Shewanella oneidensis MR-1 for cathodic hydrogen evolution reaction,
Electrochimica Acta, 2019, 305, 528-533
18) Chao Qu, Shanfu Lu, Dawei Liang*, Sian Chen, Yan Xiang, Shujun Zhang. Simultaneous electro-oxidation and in situ electro-peroxone process for the degradation of refractory organics in wastewater.
Journal of hazardous materials 2019, 364, 468-474
19) Shanquan Wang, Lan Qiu, Xiaowei Liu, Guofang Xu, Michael Siegert, Qihong Lu, Philippe Juneau, Ling Yu, Dawei Liang, Zhili He, Rongliang Qiu Electron transport chains in organohalide-respiring bacteria and bioremediation implications. Biotechnology advances 2018, 36 (4), 1194-1206
20) Shujuan Meng, Wenhong Fan, Xiaomin Li, Yu Liu, Dawei Liang*, Xiaoxing Liu. Intermolecular interactions of polysaccharides in membrane fouling during microfiltration.
Water Research, 2018, 143, 38-46.
21) Lina Wu, Zhi Li, Chen Zhao, Dawei Liang, Yongzhen Peng, A novel partial-denitrification strategy for post-anammox to effectively remove nitrogen from landfill leachate, Science of the Total Environment, 2018, 633, 745-751
22) Dawei Liang*, Shanquan Wang, Development and characterization of an anaerobic microcosm for reductive dechlorination of PCBs. Front. Environ. Sci. Eng. 2017, 11(6): 2,
23) Yongjia ZHANG, Dawei LIANG*, Weiwei XU, Yan XIANG, Beizhen XIE, Hong LIU. Kinetics and gene diversity of denitrifying biocathode in biological electrochemical systems. RSC Adv., 2017, 7, 24981–24987
24) Dawei Liang*, Weiwei Xu, Yanyan Liu, Sikan Peng, Beizhen Xie, Shanfu Lu, Yan Xiang, Hong Liu. Can bicarbonate replace phosphate to improve the sustainability of bioelectrochemical systems for H2 production? RSC Adv. 2015, 5, 27082-27086
25) Dawei Liang*, Yanyan Liu, Sikan Peng, Fei Lan, Shanfu Lu, Yan Xiang, Effects of bicarbonate and cathode potential on hydrogen production in a biocathode electrolysis cell. Front. Environ. Sci. Eng., 2014, 8(4), 624-630
26) Qihong Lu, Ling Yu, Zhiwei Liang, Qingyun Yan, Zhili He, Tiangang Luan, Dawei Liang*, Shanquan Wang*, Dehalococcoides as a potential biomarker evidence for uncharacterized organohalides in environmental samples. Front. Microbiol., 2017, 8, (1677).
27) Siyuan Rao, Zhibin Guo, Dawei Liang*, Deliang Chen, Yuan Li, Yan Xiang*. 3D Proton Transfer Augments Bio-Photocurrent Generation. Adv. Mater. 2015, 27, 16, 2668-2673,
28) Xiao-hu Li, Da-wei Liang*, Yan-Xia Bai, Yao-ting Fan*, Hong-Wei Hou, Enhanced H2 production from corn stalk by integrating dark fermentation and single chamber microbial electrolysis cells with double anode arrangement. International Journal of Hydrogen Energy 2014, 39(17), 8977–8982
29) Sikan Peng, Dawei Liang*, Peng Diao, Yanyan Liu, Fei Lan, Yuhan Yang, Shanfu Lu, Xiang, Y.* Nernst-Ping-Pong Model for Evaluating the Effects of the Substrate Concentration and Anode Potential on the Kinetic Characteristics of Bioanode. Bioresour. Technol., 2013, 136, 610-616,
30) Da-wei Liang*, Si-kan Peng, Shan-fu Lu, Yan-yan Liu, Fei Lan, Yan Xiang, Enhancement of hydrogen production in a single chamber microbial electrolysis cell through anode arrangment optimization. Bioresour. Technol., 2011, 102, 10881-10885
31) Yu Yang, Ye Li, Yi-min Zhang*, Da-wei Liang*, Applying hybrid coagulants and polyacrylamide flocculants in the treatment of high-phosphorus hematite flotation wastewater (HHFW): Optimization through response surface methodology. 2010, Sep. Purif. Technol., 76(1), 72-78
32) 吴擎昊,马秀梅,卢善富,相艳,梁大为*,利用活性碳毡构建流通式电容去离子器件及其电容脱盐性能研究,环境科学学报, 2018, 38(4), 1509-1513.
33) 杨雨寒,徐伟伟,彭思侃,卢善富,相艳,梁大为*, 纳米零价铁降解水中多溴联苯醚(PBDEs)及降解途经研究. 环境科学,2014, 35(2), 165-172
34) Dawei Liang, Guodong Han, Yongjia Zhang, Siyuan Rao, Shanfu Lu, Haining Wang, Yan Xiang*. Efficient H2 production in a microbial photoelectrochemical cell with a composite Cu2O/NiOx photocathode under visible light. Appl. Energy, 2016, 168, 544–549
35) Dawei Liang, Yuhan Yang, Weiwei Xu, Sikan Peng, Shanfu Lu, Yan Xiang, Nonionic surfactant greatly enhances the reductive debromination of polybrominated diphenyl ethers by nanoscale zerovalent iron: Mechanism and kinetics, Journal of Hazardous Materials, 2014, 278, 592–596
2010年之前
36) Dawei Liang, Shiva S. Shayegan, Wun Jern Ng, Jianzhong He*, Development and Characteristics of Rapidly Formed Hydrogen Producing Granules in an Acidic Anaerobic Sequencing Batch Reactor (AnSBR). Biochem. Eng. J. 2010, 49, 119-125.
37) Liang, D.W., Fang, H.H.P., Zhang, T. (2009) Microbial characterization and quantification of an anaerobic sludge degrading dimethyl phthalate. J. Appl. Microbiol., 106: 296-305.
38) Liang, D.W., Fang, H.H.P., Zhang, T., He J.Z. (2008) Phthalates biodegradation in the environment. Appl. Microbiol. Biotechnol., 80: 183-198.
39) Liang, D.W, Fang, H.H.P., Zhang, T. (2008) Real-time quantification of dominant anaerobes in an upflow reactor by polymerase chain reaction using a TaqMan gene probe. Water Sci. Technol. 51, 1851-1855.
40) Liang, D.W., Fang, H.H.P., Zhang, T. (2007) Denitrifying degradation of dimethyl phthalate. Appl. Microbiol. Biotechnol. 74, 221-229.
41) Liang, D.W., Fang, H.H.P. (2007) Anaerobic degradation of di-methyl phthalate contained wastewater in a UASB. Water Res. 41, 2879-2884.
42) Fang, H.H.P., Liang, D.W., Zhang, T. (2007) Aerobic degradation of diethyl phthalate by Sphingomonas sp. Bioresour. Technol. 98, 717-720.
43) Fang, H.H.P., Liang, D.W.,Zhang, T. (2006) Anaerobic treatment of phenol in wastewater under thermophilic condition. Water Res. 40, 427-434.
【专著】
汪善全,梁大为,侯慧杰,信丰学,编。环境分子微生物学,科学出版社,2022年3月,ISBN:9787030719508。
【章节】
1. Dawei Liang, Herbert H.P. Fang, Chapter 9: Anaerobic Treatment of Phenolic Wastewaters. In: Environmental Anaerobic Technologies: Applications and Developments. Editor: Fang, H.H.P. World Scientific Publishing Company. 2010
2. 梁大为,第10章:生物能源, 仿生智能纳米材料,江雷等编,科学出版社,2015
【专利】
1. 梁大为,吴擎昊,相艳,卢善富,电容去离子单元、装置及方法,中国,ZL210494797.5 (已授权)
2. 梁大为,刘琰琰,彭思侃,卢善富,相艳,产氢微生物电解池及其生物阴极驯化方法, 2016.1.27, 中国,ZL201310148645.5(已授权)
3. 梁大为,杨雨寒,徐伟伟,彭思侃,卢善富,相艳,一种表面活性剂协同纳米铁降解多溴联苯醚的方法,2016.08.24,中国,201410222003X(已授权)
4. 相艳,梁大为,卢善富,一种太阳能供电的高盐有机废水处理系统,2017.05.31, 中国,ZL201620786427.3(已授权)
5. 卢善富,梁大为,相艳,陈思安。一种采用氧还原阴极得电解槽,授权日期20180604,ZL201510751195.8 (已授权)
6. 吴莉娜,梁大为,沈明玉,李志,李俊佟,尚添顺,张家鏐 采用半短程硝化-厌氧氨氧化-电氧化处理城市污水厂污泥消化液实现深度除碳脱氮的方法,CN201810559093.X(已授权)
