1. Zhang C., Liang P.*, Jiang Y., Huang X. (2015) Enhanced power generation of microbial fuel cell using manganese dioxide-coated anode in flow-through mode. Journal of Power Sources. 273: 580-583.
2. Zuo K., Liu H., Zhang Q., Liang P., Huang X., Vecities D. (2015) A single-use paper-shaped microbial fuel cell for rapid aqueous biosensing. Chemsuschem. 8: 2035-2040.
3. Lu Z., Girguis P., Liang P., Shi S., Huang G., Cai K., Zhang L. Biological capacitance studies of anodes in microbial fuel cells using electrochemical impedance spectroscopy. Bioprocess and Biosystems Engineering. 38: 1325-1333.
4. Mo Y., Xiao K., Liang P., Huang X. (2015) Effect of nanofiltration membrane surface fouling on organic micro-pollutants rejection: the roles of aqueous transport and solid transport. Desalination. 367: 103-111.
5. Zhang J., Satti A., Chen X., Xiao K., Sun J., Yan X., Liang P., Zhang X., Huang X. (2015) Low-voltage electric field applied into MBR for fouling suppression: performance and mechanisms. Chemical Engineering Journal. 273: 223-230.
6. Jiang Y., Liang P.*, Zhang C. (2015) Enhancing the response of microbial fuel cell based toxicity sensors to Cu(II) with the applying of flow-through electrodes and controlled anode potentials. Bioresource Technology. 190: 367-372.
7. Liang P., Yuan L., Yang X. (2015) Influence of circuit arrangement on the performance of a microbial fuel cell driven capacitive deionization (MFC-CDI) system Desalination. 369: 68-74.
8. Wu S., Liang P., Zhang C., Li H., Zuo K., Huang X. (2015) Enhanced performance of microbial fuel cell at low substrate concentrations by adsorptive anode. Electrochimica Acta. 161: 245-251.
9. Zuo K., Liang S., Liang P.*, Zhou X., Sun D., Zhang X., Huang X. (2015) Carbon filtration cathode in microbial fuel cell to enhance wastewater treatment. Bioresource Technology. 185: 426-430.
10. Yan X., Xiao K., Liang S., Lei T., Liang P., Xue T., Huang X. (2015) Hydraulic optimization of membrane bioreactor via baffle modification using computational fluid dynamics. Bioresource Technology. 175: 633-637.
11. Wang S., Liang P.*, Wu Z., Su F., Yuan L., Sun Y., Huang X. (2015) Mixed sulfur-iron particles packed reactor for simultaneous advanced removal of nitrogen and phosphorus from secondary effluent. Environmental Science and Pollution Research. 22 (1): 415-424.
12. Sun J. Y., Xiao K., Mo Y. H., Liang P.*, Shen Y. X., Zhu N. W., Huang X. (2014) Seasonal characteristics of supernatant organics and its effect on membrane fouling in a full-scale membrane bioreactor. Journal of Membrane Science. 453: 168-174.
13. Sun, Y., Shen, Y. X., Liang, P., Zhou, J., Yang, Y., Huang X. (2014) Linkages between microbial functional potential and wastewater constituents in large-scale membrane bioreactors for municipal wastewater treatment. Water Research. 56: 162-171.
14. Xiao K., Sun J., Mo Y., Fang Z., Liang P., Huang X., Ma B. (2014) Effect of membrane pore morphology on microfiltration organic fouling: PTFE/PVDF blend membranes compared with PVDF membranes. Desalination. 343: 217-225.
15. Liang S., Xiao K., Wu J., Liang P., Huang X. (2014) Mechanism of membrane filterability amelioration via tuning mixed liquor property by pre-ozonation. Journal of Membrane Science. 454: 111-118.
16. Xiao K., Shen Y. X., Liang S., Liang P., Wang X. M., Huang X. (2014) A systematic analysis of fouling evolution and irreversibility behaviors of MBR supernatant hydrophilic/hydrophobic fractions during microfiltration. Journal of Membrane Science. 467: 206-216.
17. Zhang J., Xiao K., Liang P., Waite T. D., Huang X. (2014) Electrically released iron for fouling control in membrane bioreactors: A double-edged sword? Desalination. 347: 10-14.
18. Zuo K. C., Cai J. X., Liang S., Wu S., Zhang C., Liang P.*, Huang X. (2014) A ten liter stacked microbial desalination cell packed with mixed ion-exchange resins for secondary effluent desalination. Environmental Science & Technology. 48 (16): 9917-9924.
19. Liang P., Yuan L. L., Yang X. F., Huang X. Zhou S. J. (2013) Coupling Ion-exchangers with Inexpensive Activated Carbon Fiber Electrodes to Enhance the Performance of Capacitive Deionization Cells for Domestic Wastewater Desalination. Water Research. 47: 2523-2530.
20. Liang P., Yuan L. L., Wu W. L., Yang X. F., Huang X. (2013) Enhanced performance of bio-cathode microbial fuel cells with the applying of transient-state operation modes. Bioresource Technology. 147: 228-233.
21. Liang P., Wei J. C., Li M., Huang X. (2013) Scaling up a novel denitrifying microbial fuel cell with an oxic-anoxic two stage biocathode. Frontiers of Environmental Science & Engineering. 7 (6): 913-919..
22. Zuo K. C., Yuan L. L., Wei J. C., Liang P.*, Huang X. (2013) Competitive migration behaviors of multiple ions and their impacts on ion-exchange resin packed microbial desalination cell. Bioresource Technology. 146: 637-642.
23. Xia X., Zhang F., Zhang X. Y., Liang P., Huang X, Logan B. E. (2013) Use of pyrolyzed iron ethylenediaminetetraacetic acid modified activated carbon as air-cathode catalyst in microbial fuel cells. Applied Materials & Interfaces. 5 (16): 7862-7866.
24. Ren S. T., Xia X., Yuan L. L., Liang P.*, Huang X. (2013) Enhancing charge harvest from microbial fuel cells by controlling the charging and discharging frequency of capacitors. Bioresource Technology. 146: 812-815.
25. Xia X., Tokash J. C. , Zhang F, Liang P., Huang X, Logan B. E. (2013) Oxygen-reducing biocathodes operating with passive oxygen transfer in microbial fuel cells. Environmental Science & Technology. 47 (4): 2085-2091.
26. Zhang X. Y., Liang P., Shi J., Wei J. C., Huang X. (2013) Using a glass fiber separator in a single-chamber air-cathode microbial fuel cell shortens start-up time and improves anode performance at ambient and mesophilic temperatures. Bioresource Technology. 130: 529-535.
27. Zhang X. Y., Shi J., Liang P., Wei J. C., Huang X., Zhang C. Y., Logan B. E. (2013) Power generation by packed-bed air-cathode microbial fuel cells. Bioresource Technology. 142: 109-114.
28. Luo X., Nam J. Y., Zhang F., Zhang X. Y., Liang P., Huang X., Logan B. E. (2013) Optimization of membrane stack configuration for efficient hydrogen production in microbial reverse-electrodialysis electrolysis cells coupled with thermolytic solutions. Bioresource Technology. 140: 399-405.
29. Shen Y. X., Xiao K., Liang P., Ma Y. W., Huang X. (2013) Improvement on the modified Lowry method against interference of divalent cations in soluble protein measurement. Applied Microbiology and Biotechnology. 97 (9): 4167-4178.
30. Shen Y. X., Xiao K., Liang P., Sun J. Y., Shai S. J., Huang X. (2012) Characterization of soluble microbial products in 10 large-scale membrane bioreactors for municipal wastewater treatment in China. Journal of Membrane Science. 415-416: 336-345.
31. Xia X., Sun Y. M., Liang P.*, Huang X. (2012) Long-term effect of set potential on biocathodes in microbial fuel cell: electrochemical and phylogenetic characterization. Bioresource Technology. 120: 26-33.
32. Yuan L. L., Yang X. F. Liang P.*, Wang L. Huang Z. H. Wei J. C., Huang X. (2012) Capacitive deionization coupled with microbial fuel cells to desalinate low-concentration salt water. Bioresource Technology. 110: 735-738.
33. Wei J. C., Liang P., Zuo K. C., Cao X. X., Huang X. (2012) Carbonization and activation of inexpensive semicoke-packed electrodes to enhance power generation of microbial fuel cells. ChemsusChem. 5 (6): 1065-1070.
34. Morel A., Zuo K., Xia X., Wei J. C., Luo X., Liang P.*, Huang X. (2012) Microbial desalination cells packed with ion-exchange resin to enhance water desalination rate. Bioresource Technology. 118: 43-48.
35. Luo X., Cao X. X., Mo Y. H., Xiao K., Zhang X. Y., Liang P.*, Huang X. (2012) Power generation by coupling reverse electrodialysis and ammonium bicarbonate: Implication for recovery of waste heat. Electrochemistry Communications. 19: 25-28.
36. Chen X., Liang P., Wei Z. M., Zhang X. Y., Huang X. (2012) Sustainable water desalination and electricity generation in a separator coupled stacked microbial desalination cell with buffer free electrolyte circulation. Bioresource Technology. 119: 88-93.
37. Liang P., Wu W., Wei J., Yuan L., Xia X., Huang X. (2011) Alternate charging and discharging of capacitor to enhance the electron production of bioelectrochemical systems. Environmental Science & Technology. 45 (15): 6647-6653.
38. Liang P., Wang H., Xia X., Huang X., Mo Y. H., Cao X. X., Fan M. Z. (2011) Carbon nanotube powders as electrode modifier to enhance the activity of anodic biofilm in microbial fuel cells. Biosensor & Bioelectronics. 26 (6): 3000-3004.
39. Chen X., Xia X., Liang P., Cao X. X., Sun H. T., Huang X. (2011) Stacked microbial desalination cells to enhance water desalination efficiency. Environmental Science & Technology. 45 (6): 2465-1470.
40. Sun Y., Wei J., Liang P., Huang X. (2011) Electricity generation and microbial community changes in microbial fuel cells packed with different anodic materials. Bioresource Technology. 102 (23): 10886-10891.
41. Wang L., Liang P., Zhang J., Huang X. (2011) Activity and stability of pyrolyzed iron ethylenediaminetetraacetic acid as cathode catalyst in microbial fuel cells. Bioresource Technology. 102 (8): 5093-5097.
43. Wei J., Liang P., Cao X., Huang X. (2011) Use of inexpensive semicoke and activated carbon as biocathode in microbial fuel cells. Bioresource Technology. 102 (22): 10431-10435.
45. Zhang X., Cheng S., Liang P., Huang X., Logan B. E. (2011) Scalable air cathode microbial fuel cells using glass fiber separators, plastic mesh supporters, and graphite fiber brush anodes. Bioresource Technology. 102 (1): 372-375.
46. Zhang X., Sun H., Liang P., Huang X., Chen X., Logan B. E. (2011) Air-cathode structure optimization in separator-coupled microbial fuel cells. Biosensors & Bioelectronics. 30 (1): 267-271.
47. Xia X., Cao X., Liang P., et al. (2010) Electricity generation from glucose by a Klebsiella sp in microbial fuel cells. Applied Microbiology and Biotechnology. 87 (1): 383-390.
48. Wei J., Liang P., Cao X., Huang X. (2010) A New Insight into Potential Regulation on Growth and Power Generation of Geobacter sulfurreducens in Microbial Fuel Cells Based on Energy Viewpoint. Environmental Science & Technology. 44 (8): 3187-3191.
49. Mo Y., Liang P., Huang X., Wang H., Cao X. (2009) Enhancing the stability of power generation of single-chamber microbial fuel cells using an anion exchange membrane. Journal of Chemical Technology and Biotechnology. 84 (12): 1767-1772.
50. Cao X., Huang X., Zhang X., Liang P., Fan M. (2009) A mini-microbial fuel cell for voltage testing of exoelectrogenic bacteria. Frontiers of Environmental Science & Engineering in China. 3 (3): 307-312.
51. Cao X., Huang X., Liang P., Xiao K., Zhou Y., Zhang X., Logan B. E. (2009) A new method for water desalination using microbial desalination cells. Environmental Science & Technology. 43 (18): 7148-7152.
52. Cao X., Fan M., Liang P., Huang X. (2009) Effects of anode potential on the electricity generation performance of Geobacter Sulfurreducens. Chemical Journal of Chinese Universities--Chinese. 30 (5): 983-987.
53. Liang P., Fan M., Cao X., Huang X. (2009) Evaluation of applied cathode potential to enhance biocathode in microbial fuel cells. Journal of Chemical Technology and Biotechnology. 84 (5): 794-799.
54. Cao X., Huang X., Liang P., Boon N., Fan M., Zhang L., Zhang X. (2009) A completely anoxic microbial fuel cell using a photo-biocathode for cathodic carbon dioxide reduction. Energy & Environmental Science. 2 (5): 498-501.
55. Cao X., Huang X., Zhang X., Liang P., Fan M. (2008) Electricity generation by an enriched phototrophic consortium in a microbial fuel cell. Electrochemistry Communications. 10 (9): 1392-1395.
56. Liang P., Huang X., Fan M., Cao X., Wang C. (2007) Composition and distribution of internal resistance in three types of microbial fuel cells. Applied Microbioligy and Biotechnology. 77 (3): 551-558.
57. Huang X., Meng Y., Liang P., Qian Y. (2007) Operational conditions of a membrane filtration reactor coupled with photocatalytic oxidation. Separation and Purification Technology. 55 (2): 165-172.
58. Huang X., Liang P., Qian Y. (2007) Excess sludge reduction induced by tubifex tubifex in a recycled sludge reactor. Journal of Biotechnology. 127 (3): 443-451.
59. Liang P., Huang X., Qian Y. (2006) Excess sludge reduction in activated sludge process through predation of Aeolosoma hemprichi. Biochemical Engineering Journal. 28 (2): 117-122.
60. Liang P., Huang X., Qian Y., Wei Y., Ding G. (2006) Determination and comparison of sludge reduction rates caused by microfaunas' predation. Bioresource Technology. 97 (6): 854-861.
11. Sewage treatment process and apparatus for generating electric current and desalting simultaneously (European Patent 2390236, Australian Patent AU 2009338081 B2)