01. Zhang H K,Hong Y*, Wang X Y, Li X Y, Zhao G P, Wang Q, Zhai Q Y.Chlorellapotential to purify domestic waste leachate for biomass production and community structure responses of wastewater-borne bacteria. Algal Research. 2022, 66: 102825.
02. Liu X Y,Hong Y*, Zhai Q Y, Zhao G P, Zhang H K, Wang Q. Performance and mechanism ofChlorellain swine wastewater treatment: roles of nitrogen-phosphorus ratio adjustment and indigenous bacteria. Bioresource Technology, 2022, 358: 127402.
03. Zhao G P,Hong Y*, Li L H, Zhang H K, Xu R, Hao Y. Selection and characterization of plant-derived alkaloids with strong antialgal inhibition: growth inhibition selectivity and inhibitory mechanism. Harmful Algae, 2022, 117: 102272.
04. Wang Q, Wang X Y,Hong Y*, Liu X Y, Zhao G P, Zhang H K, Zhai Q Y. Microalgae cultivation in domestic wastewater for wastewater treatment and high value-added production: species selection and comparison. Biochemical Engineering Journal, 2022, 185: 108493.
05. Zhao G P, Wang X Y,Hong Y*, Liu X Y, Wang Q, Zhai Q Y, Zhang H K. Attached cultivation of microalgae on rational carriers for swine wastewater treatment and biomass harvesting. Bioresource Technology, 2022, 351: 127014.
06. Zhan M M, Ma M J,Hong Y*, Zhang C K, Li L H, Xu Y, Zhang Z L. Achieving highly efficient growth inhibition onMicrocystis aeruginosawith location-based lactic acid composites. Desalination and Water Treatment, 2022, 253: 285?97.
07. Wang X Y,Hong Y*. Microalgae biofilm and bacteria symbiosis in nutrient removal and carbon fixation from wastewater: a review. Current Pollution Reports, 2022, 8: 128-146.
08. Zhan M M,Hong Y*. Recent advances in technologies for removal of microcystins in water: A review. Current Pollution Reports, 2022, 8: 113-127.
09. Liu X Y,Hong Y*, Zhao G P, Zhang H K, Zhai Q Y, Wang Q. Microalgae-based swine wastewater treatment: strain screening, conditions optimization, physiological activity and biomass potential. Science of the Total Environment, 2022, 807: 151008
10. Liu X Y,Hong Y*, Liu Yu. Effect of light quality onChlorellasp. HQ cultivation in inland saline-alkali leachate: growth, lipid accumulation and fatty acid profile. Frontier of Environmental Science and Engineering,2022, 16(4): 45
11. Zhai Q Y,Hong Y*, Wang X Y, Wang Q, Zhao G P, Liu X Y, Zhang H K. Mixing starch wastewaters to balance nutrients for improving nutrient removal, microalgae growth and accumulation of high value-added products. Water Cycle. 2022, 3: 151?59.
12. Li L H, Hao L C,Hong Y*. Responses of bloom-formingMicrocystis aeruginosato polystyrene microplastics exposure: growth and photosynthesis. Water Cycle. 2022, 3: 133?42.
13. Liu X Y,Hong Y*, Gu W P. Influence of light quality onChlorellagrowth, photosynthesis and high-valued products accumulation in coastal saline-alkali leachate. Water Reuse, 2021, 11(2): 301?11
14. Chen Z Y, Li L H, Hao L C,Hong Y*. Hormesis-like growth and photosynthetic physiology of marine diatomPhaeodactylum tricornutumBohlin exposed to polystyrene microplastics. Frontier of Environmental Science and Engineering. 2021. 16(1): 2
15. Zhan M M, Liu P R, Liu X Y,Hong Y*, Xie X. Inactivation and removal technologies for algal-bloom control9/span>Advances and challenges. Current Pollution Reports. 2021. 7(3): 392-406
16. Liu X Y,Hong Y*. Microalgae-based wastewater treatment and recovery with biomass and high-value products: A brief review. Current Pollution Reports. 2021. 7(2): 227-245
17. Zhang Q, Hao L C,Hong Y*. Detrimental effects induced by diisononyl phthalate on development and behavior ofDrosophilalarva and potential mechanisms. Comparative Biochemistry and Physiology, Part C. 2021. 243: 108967.
18. Zhang Q, Hao L C,Hong Y*. Exploring the multilevel effects of triclosan from development, reproduction to behavior usingDrosophila melanogaster. Science of the Total Environment. 2021, Mar 25th, 762: 144170.
19. Zhang Q, Hao L C,Hong Y*. Exposure evaluation of diisononyl phthalate in the adults ofDrosophila melanogaster: Potential risks in fertility, lifespan, behavior and modes of action. Comparative Biochemistry and Physiology - Part C, 2020. Dec, 238: 108847.
20. Liu X Y,Hong Y*, He Y T, Gu W P. Comparison of oleaginous microalgal growth and lipid accumulation in saline-alkali leachate: a case from Shandong Province. Desalination and Water Treatment, 2020, 187: 390-398
21. Liu P R, Zhou J F,Hong Y*, Xie X*. Electric-field enhanced microalgae inactivation using a flow-through copper ionization cell. Journal of Hazardous Materials, 2020. Dec, 400: 123320.
22. Li L H, Li X Y,Hong Y*, Jiang M R, Lu S L. Use of microalgae for the treatment of black and odorous water: Purification effects and optimization of treatment conditions. Algal Research. 2020, 47: 101851-101861.
23. Liu P R, Zhou J F, Wang T, Yu C.Hong Y*, Xie X*. Efficient microalgae inactivation and growth control by locally enhanced electric field treatment (LEEFT). Environmental Science: Nano. 2020, 7: 2021-2031
24. Liu P R, Wang T, Yang Z Y,Hong Y*, Xie X, Hou Y L. Effects of Fe3O4nanoparticle fabrication and surface modification onChlorellasp. harvesting efficiency. Science of the Total Environment, 2020, 704: 135286. DOI: 10.1016/j.scitotenv.2019.135286
25. Liu X Y,Hong Y*, He Y T, Liu Y. Growth and high-valued products accumulation characteristics of microalgae in saline-alkali leachate from Inner Mongolia. Environmental Science and Pollution Research, 2019, 26: 36985-36992
26. Liu X Y,Hong Y*, Liu P R, Zhan J J, Yan R. Effects of cultivation strategies on the cultivation ofChlorellasp. HQ in photoreactors. Frontier of Environmental Science and Engineering, 2019, Sep, 13(5): 78-88
27. He Y T,Hong Y*, Liu X Y, Zhang Q, Liu P R, Wang S Y. Influences of carbon and nitrogen sources and metal ions on the heterotrophic culture ofScenedesmussp. LX1. Environmental Science and Pollution Research, 2019, May, 26(13):13381-13389
28. Liu P R, Yang Z Y,Hong Y*, Hou Y L. An in-situ method for synthesis of magnetic nanomaterials and efficient harvesting for oleaginous microalgae in algal culture. Algal Research, 2018, April, 31:173?82
29. Liu Y, Zhang J J,Hong Y*. Effects of metal ions on the cultivation of an oleaginous microalgaChlorellasp. Environmental Science and Pollution Research, 2017, 24(34):26594?6604
30. Liu P R, Wang T, Yang Z Y,Hong Y*, Hou Y L. Long-chain poly-arginine functionalized porous Fe3O4microspheres as magnetic flocculant for efficient harvesting of oleaginous microalgae. Algal Research, 2017, 27: 99-108
31. Liu Y, Zhang Q,Hong Y*. Formation of disinfection byproducts from accumulated soluble products of oleaginous microalga after chlorination. Frontiers of Environmental Science & Engineering, 2017, 11(6): 1-7
32. Liu P R, Yang W L, Wang T,Hong Y*, Hou Y L. Functional graphene-based magnetic nanocomposites as magnetic flocculant for efficient harvesting of oleaginous microalgae. Algal Research, 2016 Nov., 19: 86-95
33. Wang T, Yang W L,Hong Y*, Hou Y L. Magnetic nanoparticles grafted with amino-riched dendrimer as magnetic flocculant for efficient harvesting of oleaginous microalgae. Chemical Engineering Journal, 2016, 297: 304?14
34. Zhan J J,Hong Y*, Hu H Y. Effects of nitrogen sources and C/N ratios on lipid-producing potential ofChlorellasp. HQ. Journal of Microbiology and Biotechnology, 2016, 26(7):1290-302
35. Zhan J J, Zhang Q, Qin M M,Hong Y*. Selection and characterization of eight freshwater green algae strains for synchronous water purification and lipid production. Frontiers of Environmental Science & Engineering, 2016, 10(3): 548?58
36. Zhang Q, Zhan J J,Hong Y*. The effects of temperature on the growth, lipid accumulation and nutrient removal characteristics ofChlorellasp. HQ. Desalination and Water Treatment, 2015, 57(22): 10403-10408.
37. Rehman S, Yang W L, Liu F,Hong Y*, Wang T, Hou Y L*. Facile synthesis of anisotropic single crystalline α-Fe2O3nanoplates and their facet-dependent catalytic performance. Inorganic Chemistry Frontier, 2015, 2: 576?83.
38. Zhang Q, Wang T,Hong Y*. Investigation of initial pH effects on growth of an oleaginous microalgaeChlorellasp. HQ for lipid production and nutrient uptake. Water Science and Technology, 2014, 70(4): 712-719.
39. Zhao W Y, Yu J Y, Wu Y H,Hong Y, Hu H Y. Enhancement ofScenedesmussp. LX1 biomass production and lipid accumulation using iron in artificial wastewater and domestic secondary effluent. Korean Journal of Microbiology and Biotechnology, 2014, 42(2): 131-138.
40.Hong Y*, Xu K. Growth relationships of a lipid-producingChlorella-alga with common microalgae in laboratory co-cultures. Microbiology, 2014, 83(4): 366-375.
41. Zhang Q,Hong Y*. Comparison of growth and lipid accumulation properties of two oleaginous microalgae under different nutrient conditions. Frontiers of Environmental Science & Engineering, 2014, 8(5): 703-709.
42. Zhang Q,Hong Y*. Comparison in growth, lipid accumulation, and nutrient removal capacity ofChlorellasp. in secondary effluents under sterile and non-sterile conditions. Water Science and Technology, 2014, 69(3):573-539.
43. Zhang Q,Hong Y*. Effects of stationary phase elongation and initial nitrogen and phosphorus concentrations on the growth and lipid-producing potential ofChlorellasp. HQ. Journal of Applied Phycology, 2014 Feb., 26(1):141-149.
44.Hong Y*, Xu K. Co-existing growth relationships of a lipid-producing alga with three microalgae. Allelopathy Journal, 2013, Oct, 32(2): 301-314.
45.Hong Y*, Hu H Y, Sakoda A, Sagehashi M. Straw preservation effects ofArundo donaxL. on its allelopathic activity to toxic and bloom-formingMicrocystis aeruginosa. Water Science and Technology. 2011, May; 63(8): 1566-1573.
46.Hong Y*, Hu H Y, Sakoda A, Sagehashi M. Isolation and characterization of antialgal allelochemicals fromArundo donaxL.. Allelopathy Journal, 2010, Mar; 25 (2): 357-368
47.Hong Y*, Huang J J, Hu H Y. Effects of a novel allelochemical ethyl 2-methyl acetoacetate (EMA) on the ultrastructure and pigment composition of cyanobacteriumMicrocystis aeruginosa. Bulletin of Environmental Contamination and Toxicology, 2009, Oct; 83(4): 502-508. (DOI: 10.1007/s00128-009-9795-4)
48. Zhang X, Hu HY,Hong Y. Primary study on the feeding characteristics of a golden alga onMicrocystis aeruginosa. Water Science and Technology, 2009, 59(9):1727-1732.
49.Hong Y, Hu H Y, Xie X, Sakoda A, Sagehashi M, Li F M. Gramine-induced growth inhibition, oxidative damage and antioxidant responses in freshwater cyanobacteriumMicrocystis aeruginosa. Aquatic Toxicology, 2009, Feb 19; 91(3):262-269. (DOI: 10.1016/j.aquatox.2008.11.014)
50. Hu H Y,Hong Y. Algal-bloom control by allelopathy of aquatic macrophytes - A review. Frontiers of Environmental Science & Engineering in China, 2008, Dec 1; 2(4): 421-438
51. Zhang X, Hu H Y,Hong Y, Yang J. Isolation of aPoterioochromonascapable of feeding on Microcystis aeruginosa and degrading microcystin-LR. FEMS Microbiology Letter, 2008, Nov; 288(2): 241-246.
52.Hong Y, Hu H Y, Li F M. Physiological and biochemical effects of allelochemical ethyl 2-methyl acetoacetate (EMA) on cyanobacteriumMicrocystis aeruginosa. Ecotoxicology and Environmental Safety, 2008, Oct; 71(2): 527-534. (DOI: 10.1016/j.ecoenv.2007.10.010)
53.Hong Y, Hu H Y, Xie X, Li F M. Responses of enzymatic antioxidants and non-enzymatic antioxidants in cyanobacteriumMicrocystis aeruginosato allelochemical ethyl 2-methyl acetoacetate (EMA) isolated from reed (Phragmites communis). Journal of Plant Physiology, 2008, Aug 25; 165(12): 1264-1273.
54.Hong Y, Hu H Y, Li F M. Growth and physiological responses of freshwater green algaSelenastrum capricornutumto allelochemical ethyl 2-methyl acetoacetate (EMA) at different initial algal densities. Pesticide Biochemistry and Physiology, 2008, Mar; 90(3): 203-212.
55.Hong Y, Hu H Y. Effects of the aquatic extracts ofArundo donaxL. on the growth of freshwater algae. Allelopathy Journal, 2007, Oct; 20(2): 315-325.
56. Lv Y S, Lv Y B, Ye Y H, Wang Y L,Hong Y, Fortini M E, Zhong Y, Xie Z P. A role for presenilin in post-stress regulation: effects of presenilin mutations on Ca2+currents inDrosophila. FASEB Journal, 2007, Aug; 21(10): 2368-2378.
57.刘佩蕊,洪喻*,谢关/span>.藻华防控方法及灭活与捕获新技术研究进屔/span>.环境科学与技?/span>.环境科学与技?/span>, 2021, 44(2): 171-185.
58.陈足韲/span>,洪喻,郝丽翀,李丽卍/span>.湿热老化聚苯乙烯微塑料对三角褐指藻生长及光合活性的影响[J].环境科学与技?/span>, 2020, 43(3): 30-37.
59.洪喻*,郝立翀,陈足音-/span>新兴污染物对微藻的毒性作用与机制研究进展.生态毒理学报,2019+/span>14( 5) : 22-45
60.刘晓亚,洪喻*,占晶晶,鄢焵/span>.更新率对小球藻生长与油脂积累的影哌/span>.环境科学与技?/span>, 2019,42(5): 1-6
61.上官小亚,洪喺/span>*.混菌发酵毛白杨落叶产单细胞蛋白的研究.环境科学与技?/span>, 2014, 37(8): 156-160.
62.洪喻*,许可.微藻间竞争机制研究进屔/span>.环境科学与技?/span>, 2014, 37(5): 75-81
63.洪喻*,许可.产油小球藻与常见蓝藻共存时的生长关系研究.环境科学与技?/span>, 2013,36(12): 71-77, 99
64.赵长炛/span>,梁英梄/span>,张立秊/span>,洪喻.垃圾填埋场覆土层植物根围甲烷氧化活性研穵/span>.西北林学院学?/span>, 2010, 25(6): 59-63.
65.温馨,封莉,王辉,洪喻*,张立秊/span>.生活垃圾填埋场不同封场期场地植物抗氧化酶活?/span>.生态学杂志, 2010, 29(8): 1612-1617.
66.洪喻,胡洪?/span>.水生植物化感抑藻作用研究与应?/span>.科学通报, 2009, 54(3):287-293.
67.洪喻,胡洪?/span>,黄晶晵/span>,迫田章义,下桥雅树,李锋氐/span>.芦竹抑藻物质的初步分离及抑制铜绿微囊藻的效果.环境化学, 2008, 11朇/span>, 27(6): 751-755.
68.洪喻,胡洪?/span>,黄晶晵/span>, Sakoda Akiyoshi, Sagehashi Masaki,李锋氐/span>.不同溶剂提取芦竹化感物质对铜绿微囊藻生长的影哌/span>.环境科学, 2008, 11朇/span>, 29(11): 3143-3147.