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个人信息Personal Information
教授 博士生导师 硕士生导师
性别:女
毕业院校:山东大学
学历:博士研究生毕业
学位:博士生
在职信息:在职
所在单位:环境科学与工程学院
入职时间:2007-11-14
学科:微生物学
办公地点:山东省济南市历下区经十路17923号山东大学千佛山校区
联系方式:haiyanhup@126.com
电子邮箱:haiyan@sdu.edu.cn
扫描关注
- [201] 裴海燕 and 肖洪地. Ga2O3 nanowire grown on GaN—Ga2O3 core-shell nanoparticles using a new method: Structure, morphology, and composition . Materials letters, 2, 2399, 2010.
- [202] 刘建强 , 栾彩娜 , 冀子武 , 裴海燕 and 肖洪地. Morphology and growth mechanism of gallium nitride nanotowers synthesized by metal-organic chemical vapor deposition. JOURNAL OF ALLOYS AND COMPOUNDS, 563, 72, 2013.
- [203] 裴海燕 , 肖洪地 and 徐杭州. Microcystin-LR degradation by hydrogen-terminated porous Si under visible light irradiation. Desalination and water treatment, 59, 280, 2017.
- [204] 裴海燕 and 李红敏. Behavior of Cylindrospermopsis raciborskii during coagulation and. sludge storage - higher potential risk of toxin release than Microcystis aeruginosa?. Journal of Hazardous Materials, 347, 307, 2018.
- [205] 裴海燕 and 聂昌亮. Growth of large-cell and easily-sedimentation microalgae Golenkinia SDEC-16 for biofuel production and campus sewage treatment. Renewable Energy, 122, 517, 2018.
- [206] 裴海燕 and 徐杭州. High-throughput sequencing reveals microbial communities in drinking water treatment sludge from six geographically distributed plants, including potentially toxic cyanobacteria and pathogens. science of the total environment, 634, 769, 2018.
- [207] 裴海燕 and 蒋丽群. Lipid productivity in limnetic Chlorella is doubled by seawater added with anaerobically digested effluent from kitchen waste. Biotechnology for biofuels, 11, 2018.
- [208] 田昌. Dinoflagellate cyst abundance is positively correlated to sediment organic carbon in Sydney Harbour and Botany Bay, NSW, Australia. environmental science and pollution research, 25, 5808, 2018.
- [209] 裴海燕 , 侯庆杰 and 张立杰. Cultivation of microalgae using anaerobically digested effluent from kitchen waste as a nutrient source for biodiesel production. Renewable Energy, 115, 276, 2018.
- [210] 裴海燕 and 张立杰. Salinity-induced cellular cross-talk in carbon partitioning reveals starch-to-lipid biosynthesis switching in low-starch freshwater algae. Bioresource technology, 250, 449, 2018.
- [211] 裴海燕 , 侯庆杰 and 杨志刚. Algal biofilm-assisted microbial fuel cell to enhance domestic wastewater treatment: Nutrient, organics removal and bioenergy production. chemical engineering journal, 332, 277, 2018.
- [212] 侯庆杰. Phosphorus adsorption characteristics of alum sludge: Adsorption capacity and the forms of phosphorus retained in alum sludge. Materials letters, 229, 31, 2018.
- [213] 侯庆杰 and 裴海燕. Using a tubular photosynthetic microbial fuel cell to treat anaerobically digested effluent from kitchen waste: Mechanisms of organics and ammonium removal. Bioresource technology, 2018.
- [214] 裴海燕 , 侯庆杰 and 于泽. The effects of algal extracellular substances on algal growth, metabolism and long-term medium recycle, and inhibition alleviation through ultrasonication. Bioresource technology, 2018.
- [215] 裴海燕 and 侯庆杰. Features of Golenkinia sp. and microbial fuel cells used for the treatment of anaerobically digested effluent from kitchen waste at different dilutions. Bioresource technology, 2017.
- [216] 侯庆杰 and 蒋丽群. Effect of diethyl aminoethyl hexanoate on the accumulation of high-value biocompounds produced by two novel isolated microalgae. Bioresource technology, 2015.
- [217] 侯庆杰 , 裴海燕 and 杨志刚. Coupling a photosynthetic microbial fuel cell (PMFC) with photobioreactors (PBRs) for pollutant removal and bioenergy recovery from anaerobically digested effluent. chemical engineering journal, 2018.
- [218] 裴海燕 , 侯庆杰 and 张立杰. Cultivation of microalgae using anaerobically digested effluent from kitchen waste as a nutrient source for biodiesel production. Renewable Energy, 2017.
- [219] 裴海燕 , 侯庆杰 and 杨志刚. Effects of air bubble size on algal growth rate and lipid accumulation using fine-pore diffuser photobioreactors. Algal Research-Biomass Biofuels and Bioproducts, 2018.
- [220] 侯庆杰 and 蒋丽群. Biomass production and nutrient assimilation by a novel microalga, Monoraphidium, spp. SDEC-17, cultivated in a high-ammonia wastewater. ENERGY CONVERSION AND MANAGEMENT, 2016.