倪寿清，博士，教授（破格），博士生导师，国家注册环境影响评价工程师，国家注册环保工程师，山东省泰山学者（青年），山东省杰青基金获得者。

【个人ID】

Researcher ID: http://www.researcherid.com/rid/E-4789-2013

Google Scholar: http://scholar.google.com/citations?hl=en&user=_GAJDtEAAAAJ

【联系方式】

E-mail：sqni@sdu.edu.cn

【拟招收研究生情况】

本课题组每年分别招收硕士和博士研究生2~4名，招收学生专业：环境科学与工程、化学、生命科学等相关学科。团队一直致力于环境领域前沿研究，特别是新型环境微生物技术，发表成果有丰厚的科研奖励。欢迎加入！

本课题组长年招收博士后，欢迎环境、化学、生命、土壤化等相关专业的博士毕业生来本课题组从事博士后研究（年薪具体根据山东大学博士后工资标准，另加科研绩效）。

欢迎环境和生命等相关专业的本科生来本课题组实习。

【教育经历】

2000.9－2004.7 山西大学资源环境专业，理学学士；

2004.9－2007.7 山东大学环境工程专业，工学硕士；

2007.9－2010.7 山东大学环境工程专业，工学博士；

2008.8－2010.1 美国Iowa State University&国家实验室 Ames Laboratory 联合培养博士。

【工作经历】

2010.7－2012.7 山东大学化学与化工学院 分析化学专业，博士后；

2015.7－2017.12 沂水县科技副县长（挂职）；

2017.10－2018.9 商河县科技副县长（挂职）；

2012.7－2018.8 山东大学环境科学与工程学院，讲师、副教授

2018.9－至今 山东大学环境科学与工程学院，教授（破格），博士生导师。

【学术服务】

（1）SCI期刊“Science of the Total Environment”、“CLEAN-Soil, Air, Water”、“Environmental Science and Pollution Research”和 “Journal of Environmental Biology”特邀主编；

（2）“The 11th Joint Workshop on Advanced Engineering Technology for Environment and Energy（AETEE2018）” 国际会议主席

（3）The 2nd International Symposium on Water Pollution and Treatment (ISWPT 2019)、International Anammox symposium 2019 (IANAS2019)、International Conference on Water Resource and Environment系列国际会议专家委员；

（4）国际会议分会主席，“International Conference on Water Resource and Environment”、“International Anammox Symposium (IANAS 2015)”；

（5）Editorial board member，“Journal of Civil Engineering and Environmental Sciences”、“Jacobs Journal of Hydrology”、“Frontiers in Environmental Microbiology”；

（6）各类学会会员；

（7）各类基金的评审专家。

【主要研究领域】

（1）生物氮循环；

（2）基于厌氧氨氧化的自养生物脱氮及其耦合工艺；

（3）环境友好纳米材料，特别是与生物过程协同关系研究;

（4）面向产能污水处理工艺的环境新能源研究。

【科研项目】

山东省重大科技创新工程项目；

山东省自然科学杰出青年基金；

国家自然科学基金面上项目；

国家重点研发计划；

山东省重点研发计划；

国家重点基础研究发展规划(973计划)。

【代表论文】

[1] Weak magnetic field: A powerful strategy to enhance partial nitrification. Water Research 2017, 120, 190-198.

[2] One pot synthesis of ultrathin boron nitride nanosheets supported nanoscale zerovalent iron for rapid debromination of polybrominateddiphenyl ethers. Journal of Materials Chemistry A 2013, 1, 6379-6387.

[3] Survey of dissimilatory nitrate reduction to ammonium microbial community at national wetland of Shanghai, China, Chemosphere 2020, 126195.

[4] Novel external extractive membrane bioreactor (EMBR) using electrospun polydimethylsiloxane/polymethyl methacrylate membrane for phenol-laden saline wastewater. Chemical Engineering Journal 2020, 383, 123179.

[5] Montmorillonite immobilized Fe/ Ni bimetallic prepared by dry insitu hydrogen reduction for the degradation of 4-Chlorophenlo. Scientific Reports 2019, 9:13388.

[6] Start-up and community analysis of simultaneous partial nitrification and anammox (SNAP) process by immobilization. Desalination and Water Treatment 2019, 164, 206-214.

[7] Transformation of the zero valent iron dosage effect on anammox after longtermculture: From inhibition to promotion.Process Biochemistry 2019, 78, 132-139.

[8] Nitritation-anammox process - a realizable and satisfactory way to remove nitrogen from high saline wastewater. Bioresource Technology 2019, 275, 86-93.

[9] One-pot synthesis of highly active Ni/Fe nanobimetalby simultaneous ball milling and in situchemical deposition.RSC Advances 2018, 8, 26469-26475.

[10] N₂O emission and bacterial community dynamicsduring realization of the partial nitrification process.RSC Advances 2018, 8, 24305-24311.

[11] Production of more toxic hexa-brominated diphenyl ether from rapidbiotransformation of decabromodiphenyl ether in anaerobic granular sludge.International Biodeterioration & Biodegradation 2018, 134, 7-15.

[12] Bacterial community evolutions driven by organic matter and powder activated carbon in simultaneous anammox and denitrification (SAD) process.Bioresource Technology2018,251,13-21.

[13] Microbial dynamics of biofilm and suspended flocs in anammox membrane bioreactor: The effect of non-woven fabric membrane.Bioresource Technology2018, 247, 259-266.

[14] Autoclaved sludge as the ideal seed to culture anammox bacteria: Reactor performance and microbial community diversity. Bioresource Technology 2017, 244, 391-399.

[15] Dissimilatory nitrate reduction to ammonium in the Yellow River estuary: Rates, abundance, and community diversity. Scientific Reports. Scientific Reports 2017; 7: 6830. doi:10.1038/s41598-017-06404-8.

[16] Realization of microbial community stratification for single-stage nitrogen removal in a sequencing batch biofilter granular reactor. Bioresource Technology 241, 681-691.

[17] Fast atrazine degradation by the mixed cultures enriched from activated sludge and analysis of their microbial community succession. Environmental Science and Pollution Research 2017, doi:10.1007/s11356-017-9052-z.

[18] Effects of magnetic nanoparticles on aerobic granulation process, Bioresource Technology 2017, 227, 44-49.

[19] The effect of magnetite on the start-up and N2O emission reduction of the anammox process. RSC Advances, 2016, 6, 99989-99996.

[20] Novel zero-valent iron-assembled reactor for strengthening anammox performance under low temperature. Appl Microbiol Biotechnol 2016, 100, 8711-8720.

[21] Evaluation of microbial diversity of activated sludge in a municipal wastewater treatment plant of northern China by high-throughput sequencing technology. Desalination and Water Treatment 2016, 57, 23516-23521.

[22] Gene expression and biomarker discovery of anammox bacteria in different reactors. Biochemical Engineering Journal 2016, 115, 108-114.

[23] Enhancement of anammox performance in a novel non-woven fabric membrane bioreactor (nMBR). RSC Adv. 2015, 5, 86875-86884.

[24] Distribution of extracellular polymeric substances in anammox granules and their important roles during anammox granulation. Biochemical Engineering Journal 2015, 101, 126-133.

[25] Bioremediation of wastewaters with decabromodiphenyl ether by anaerobic granular sludge. Colloids and Surfaces B: Biointerfaces. 2015, 128, 522-527.

[26] Effect of zero-valent iron on the start-up performance of anaerobic ammonium oxidation (anammox) process. Environmental Science and Pollution Research 2014, 22, 2925-2934.

[27] Evaluation of granular anaerobic ammonium oxidation process for the disposal of pre-treated swine manure. PeerJ 2014, 2, e336.

[28] Cation exchange resin immobilized bimetallic nickel–iron nanopartcles to facilitate their application in pollutants degradation to facilitate their application in pollutants degradation. Journal of Colloid and Interface Science, 420, 158-165.

[29] Interaction of polybrominated diphenyl ethers and aerobic granular sludge: Biosorption and microbial degradation. BioMed Research International 2014, doi:10.1155/2014/274620.

[30] Effect of magnetic nanoparticles on the performance of activated sludge treatment system. Bioresource Technology 2013, 143, 555-561.

[31] Anaerobic ammonium oxidation (anammox): from laboratory to full-scale application. BioMed Research International. 2013, doi:10.1155/2013/469360.

[32] Application of low-cost sponge iron for complete debromination of polybrominated diphenyl ethers. Science of Advanced Materials. 2013, 5 (8), 1123-1131.

[33] Effect of organic matter on the performance of granular anammox process. Bioresource Technology

2012, 110, 701-705.

[34] Substrate removal evaluation of granular anammox process in a pilot-scale upflow anaerobic sludge blanket reactor. Ecological Engineering 2012, 38, 30-36.

[35] Fast start-up, performance and microbial community in a pilot-scale anammox reactor seeded with exotic mature granules. Bioresource Technology

2011, 102, 2448-2454.

[36] Performance and inhibition recovery of anammox reactors seeded with different types of sludge. Water Science and Technology 2011, 63, 710-718.

[37] Interaction of anammox bacteria and inactive methanogenic granules under high nitrogen selective pressure. Bioresource Technology 2010, 101, 6910-6915.

[38] The kinetics of nitrogen removal and biogas production in an anammox non-woven membrane reactor. Bioresource Technology 2010, 101, 5767-5773

[39] Enrichment and biofilm formation of Anammox bacteria in a non-woven membrane reactor. Bioresource Technology 2010, 101, 1792-1799.

[40] Nitrous oxide emission in an aerobic granulation sequencing batch airlift reactor at ambient temperatures. International Biodeterioration & Biodegradation 2013, 85, 533-538.

[41] Enhancement of carbon monoxide mass transfer using an innovative external hollow fiber membrane (HFM) diffuser for syngas fermentation: Experimental studies and model development. Chemical Engineering Journal 2012, 184, 268-277.

[42] In situ fabrication of single-crystalline porous ZnO nanoplates on zinc foil to support silver nanoparticles as a stable SERS substrate. CrystEngComm 2012, 14, 6023-6028.

[43] Synthesis and photocatalytic activity of one-dimensional CdS@TiO2 core-shell heterostructures. Nano-Micro Letters 2011, 3(1), 6-11.

[44] Theoretical evaluation of the configurations and Raman spectra of 209 Polychlorinated biphenyl congeners. Chemosphere 2011, 85, 412-417.

[45] Facile synthesis of N-acetyl-L-cysteine capped ZnS quantum dots as an eco-friendly fluorescence sensor for Hg²⁺. Talanta 2011, 85, 1738-1743.

[46] Effect of modifying agents on the preparation and properties of the new adsorbents from wheat straw. Bioresource Technology 2010, 101, 1477-1481.

[47] Adsorption of phosphate from aqueous solutions onto modified wheat residue: Characteristics, kinetic and column studies. Colloids and Surfaces B Biointerfaces 2009, 70, 46-52.

【授权专利】

一种快速实现厌氧氨氧化颗粒化的方法.

一种快速启动厌氧氨氧化耦合亚硝化反应的反应器及快速启动方法

一种基于磁性纳米材料强化活性污泥对城市生活污水处理的方法.

一种基于球磨化学法原位制备高活性Ni-Fe合金的方法及应用

一种基于零价铁耦合厌氧氨氧化高效处理含氮废水的方法

一种以蒙脱土为载体氢气还原法大批量制备纳米镍铁双金属的方法

微氧化法去除硫化氢及回收硫单质的装置与方法.

强化废水处理的厌氧生物反应器.

微氧化法去除硫化氢及回收硫单质的装置.

一种基于阳离子树脂的表面增强拉曼散射基底的制备方法.

Dr. Shou-Qing Ni Professor School of Environmental Science and Engineering Room 210-1Old MathematicalBuilding Shandong University, No. 27 Shanda South Road Jinan 250100, China Tel.: +86 531 883 656 60 E-mail: sqni@sdu.edu.cn

Researcher ID: http://www.researcherid.com/rid/E-4789-2013

ORCID ID: http://orcid.org/0000-0002-1864-2007

Google Scholar: http://scholar.google.com/citations?hl=en&user=_GAJDtEAAAAJ

Education

Ph.D.,Environmental Engineering, Shandong University, China, June 2010

Exchange student, Iowa State University, USA, August 2008~ February 2010

M.S.,Environmental Engineering, Shandong University, China, June 2007

B.S.,Environmental Science, Shanxi University, China, June 2004

Professional experience

Professor, Shandong University, China

Research interests

1.Typical treatment and detection of environmental pollutants, especially the degradation of persistent organic pollutants in the environment, and product analysis;

2.Biological wastewater treatment technology, autotrophic nutrients removal;

3.The environmental applications of micro-and nano materials and their interaction with biological processes;

4.The development of new green energy.

Invited Conference Presentations

1.S.Q. Ni,“ANAMMOX: From laboratory to full-scale application”,Plenary speech, The 2nd International Symposium on Water Pollution and Treatment (ISWPT 2019). October 17-18, 2019, Bangkok, Thailand.

2.S.Q. Ni, “Anaerobic ammonia oxidation: From laboratory to full-scale application”,Invited speech, The 5th International Conference on Water Resource and Environment (WRE 2019). 16-19 July, 2019, Macao, China.

3. S.Q. Ni, “Green Technology for CLEAN PAKISTAN”,Plenary speech, International Seminar Soil-Plant-Environment Nexus in Changing Climate. 30 November 2018, Faisalabad, Pakistan.

4.S.Q. Ni, “Anaerobic Ammonia Oxidation: Fast Start-up Strategy and Process Regulation”,Plenary speech, International Conference on “Soil and Crop Health in Changing Climate”. 27-29 November 2018, Multan, Pakistan.

5.S.Q. Ni, “Effect of different concentrations of zero-valent iron on the anammox start-up process and the distribution of microbial community”, International Conference on Green Technologies for Sustainable Water. 13-16 October, 2017, Hanoi, Vietnam.

6.S.Q. Ni, “Anaerobic biotransformation of decabromodiphenyl ether by anaerobic granular sludge”, 15th World Conference on Anaerobic Digestion (AD-15), 17-20 October 2017, Beijing, China.

7.S.Q. Ni, “A novel ZVI assembled anammox reactor for strengthening anammox process to adapt extreme circumstance”, 13th IWA Specialized Conference on Small Water and Wastewater Systems (SWWS) and the 5th IWA Specialized Conference on Resources-Oriented Sanitation (ROS), 13-18- September 2016, Athens, Greece.

8.S.Q. Ni, “Anaerobic Ammonia Oxidation: Fast Start-up Strategy and Process Regulation”,Keynote speech, 2016 International Conference on Water Resource and Environment (WRE2016), 23-26 July 2016, Shanghai, China.

9.S.Q. Ni, “Towards understanding extracellular polymeric substances during anammox granulation process”,Keynote speech, International Anammox Symposium (IANAS 2015). 7-9 August 2015, Dalian, China. Serving asSession Chairof Session 2 “Application of ANAMMOX”.

10.S.Q. Ni, “Anaerobic biotransformation of decabromodiphenyl ether by anaerobic granular sludge”, International Conference on Water Resource and Environment (WRE2015). 25-28 July 2015, BeiJing, China. Serving asSession Chairof Oral Session 1 “Environmental Biotechnology”.

11.S.Q. Ni, “Performance of anammox process in a novel membrane bioreactor using non-woven fabric modules”, IWA Water and Industry 2015 Conference. 7-10 June 2015, Vasteras, Sweden.

12.China Concept WWTP Workshop “Mainstream Deammonification: Chances and challenges of its application for municipal wastewater treatment”, 25 April, 2015, Beijing, China.

13.S.Q. Ni, “Enhancement of anammox performance in a novel nonwoven fabric membrane bioreactor”, 3rd Water Research Conference. 11-14 January 2015, Shenzhen, China.

14.S.Q. Ni, “Quantitative study of metabolic enzymes and their relation with nitrogen removal during anaerobic ammonia oxidation process”, Second International Conference on Sustainable Urbanization (ICSU 2015). 7-9 January 2015, Hong Kong, China.

15.S.Q. Ni, “Distribution of extracellular polymeric substances and structural stability of different anammox granules”,7^thInternational Conference on the Challenges in Environmental Science & Engineering (CESE2014). 12-16 October 2014. Johor Bahru, Malaysia.

16.S.Q. Ni, “Quantitative study of metabolic enzymes and the expression of messenger RNA involved in anaerobic ammonia oxidation process”, Chinese Chemical Society 12th National Conference and Symposium on Water Treatment Chemicals. 10-12 October 2014. Guangzhou, China.

17.S.Q. Ni, “Effect of magnetic nanoparticles on the performance of activated sludge”, 2nd Water Research Conference. 20-23 January 2013, Singapore Expo, Singapore.

18.S.Q. Ni, “Performance of anaerobic ammonia oxidation (Anammox): effect of organic matter on granular sludge”, 3^rdInternational Conference on Asian-European Environmental Technology and Knowledge Transfer/1st International Symposium on Environment Engineering. 13-14 May 2010. Hefei, Anhui, China.

19.S.Q. Ni, “Research of integrated treatment process in the disposal of straw pulp gray wastewater”, IWA Chemical Industries 2008 International Conference. 9-11 November 2008. Beijing, China.

Editorships of Journals or Other Learned Publications

1.Invited Editor,Science of the Total Environment.

2.Invited Editor,Environ Sci Pollut Res.

3.Invited Editor,Journal of Environmental Biology.

4.Invited Editor,CLEAN-Soil, Air, Water

5.Editorial board member,Journal of Civil Engineering and Environmental Sciences.

6.Editorial board member,Jacobs Journal of Hydrology.

7.Editorial board member,Frontiers in Environmental Microbiology

Funding Sources

1.National Natural Science Foundation of China

2.National Key Research and Development Program of China

3.Key R & D project of Shandong Province

4.Young Scholars Program of Shandong University

5.Shenzhen Science and TechnologyResearch and Development Funds

6.Research Award Fund for Outstanding Middle-aged and Young Scientist ofShandong Province

7.Special Fund for Innovation Program of Shandong Province

8.China Postdoctoral Science Foundation

9.PI and Co-PI for more than 20 projects.

Grant Review Panels

·Member of review panel for NationalScienceFoundationof China(NSFC)

·Member of review panel for NationalScienceFoundationof Shandong Province (SDNSF)

·Member of Review Panel forJinan Science and Technology Development Plan

·Member of review panel forZhengzhou Science and Technology Project

Honors

·National Registered Environmental Impact Assessment Engineer

·National Registered Environmental Engineer

·Social practice outstanding instructor of Shandong University, 2014

·Expand educational outstanding individual of Shandong University, 2014

·Excellent Doctoral Dissertation of Shandong University, 2011

·Doctoral Scholarship Award, China Scholar Council, 2008

·Excellent graduate scholarship, 2008

·Honor for outstanding graduate student, 2008

·Outstanding person in charge of the school community, 2003

Reviewer for Journals

·Environ Science and Technology

·Water Research

·Bioresource Technology

·Chemical Engineering Journal

·Chemosphere

·Catalysis Today

·Environ Sci Pollut Res

·Journal of Environmental Science-China

·Journal of Hazardous Materials

·African Journal of Biotechnology

·African Journal of Microbiology Research

·Chemical and Biochemical Engineering Quarterly

·International Research Journal of Biochemistry and Bioinformatics

Refereed Journal Articles

[1] Weak magnetic field: A powerful strategy to enhance partial nitrification. Water Research 2017, 120, 190-198.

[2] One pot synthesis of ultrathin boron nitride nanosheets supported nanoscale zerovalent iron for rapid debromination of polybrominated diphenyl ethers. Journal of Materials Chemistry A 2013, 1, 6379-6387.

[3] Survey of dissimilatory nitrate reduction to ammonium microbial community at national wetland of Shanghai, China, Chemosphere 2020,126195.

[4] Novel external extractive membrane bioreactor (EMBR) using electrospun polydimethylsiloxane/polymethyl methacrylate membrane for phenol-laden saline wastewater. Chemical Engineering Journal 2020, 383, 123179.

[5] Montmorillonite immobilized Fe/ Ni bimetallic prepared by dry insitu hydrogen reduction for the degradation of 4-Chlorophenlo. Scientific Reports 2019, 9:13388.

[6] Start-up and community analysis of simultaneous partial nitrification and anammox (SNAP) process by immobilization. Desalination and Water Treatment 2019, 164, 206-214.

[7] Transformation of the zero valent iron dosage effect on anammox after longtermculture: From inhibition to promotion.Process Biochemistry 2019, 78, 132-139.

[8] Nitritation-anammox process - a realizable and satisfactory way to remove nitrogen from high saline wastewater. Bioresource Technology 2019, 275, 86-93.

[9] One-pot synthesis of highly active Ni/Fe nanobimetalby simultaneous ball milling and in situchemical deposition.RSC Advances 2018, 8, 26469-26475.

[10] N₂O emission and bacterial community dynamicsduring realization of the partial nitrification process.RSC Advances 2018, 8, 24305-24311.

[11] Production of more toxic hexa-brominated diphenyl ether from rapidbiotransformation of decabromodiphenyl ether in anaerobic granular sludge.International Biodeterioration & Biodegradation 2018, 134, 7-15.

[12] Bacterial community evolutions driven by organic matter and powder activated carbon in simultaneous anammox and denitrification (SAD) process.Bioresource Technology2018,251,13-21.

[13] Microbial dynamics of biofilm and suspended flocs in anammox membrane bioreactor: The effect of non-woven fabric membrane.Bioresource Technology2018, 247, 259-266.

[14] Autoclaved sludge as the ideal seed to culture anammox bacteria: Reactor performance and microbial community diversity. Bioresource Technology 2017, 244, 391-399.

[15] Dissimilatory nitrate reduction to ammonium in the Yellow River estuary: Rates, abundance, and community diversity. Scientific Reports. Scientific Reports 2017; 7: 6830. doi:10.1038/s41598-017-06404-8.

[16] Realization of microbial community stratification for single-stage nitrogen removal in a sequencing batch biofilter granular reactor. Bioresource Technology 241, 681-691.

[17] Fast atrazine degradation by the mixed cultures enriched from activated sludge and analysis of their microbial community succession. Environmental Science and Pollution Research 2017, doi:10.1007/s11356-017-9052-z.

[18] Effects of magnetic nanoparticles on aerobic granulation process, Bioresource Technology 2017, 227, 44-49.

[19] The effect of magnetite on the start-up and N2O emission reduction of the anammox process. RSC Advances, 2016, 6, 99989-99996.

[20] Novel zero-valent iron-assembled reactor for strengthening anammox performance under low temperature. Appl Microbiol Biotechnol 2016, 100, 8711-8720.

[21] Evaluation of microbial diversity of activated sludge in a municipal wastewater treatment plant of northern China by high-throughput sequencing technology. Desalination and Water Treatment 2016, 57, 23516-23521.

[22] Gene expression and biomarker discovery of anammox bacteria in different reactors. Biochemical Engineering Journal 2016, 115, 108-114.

[23] Enhancement of anammox performance in a novel non-woven fabric membrane bioreactor (nMBR). RSC Adv. 2015, 5, 86875-86884.

[24] Distribution of extracellular polymeric substances in anammox granules and their important roles during anammox granulation. Biochemical Engineering Journal 2015, 101, 126-133.

[25] Bioremediation of wastewaters with decabromodiphenyl ether by anaerobic granular sludge. Colloids and Surfaces B: Biointerfaces. 2015, 128, 522-527.

[26] Effect of zero-valent iron on the start-up performance of anaerobic ammonium oxidation (anammox) process. Environmental Science and Pollution Research 2014, 22, 2925-2934.

[27] Evaluation of granular anaerobic ammonium oxidation process for the disposal of pre-treated swine manure. PeerJ 2014, 2, e336.

[28] Cation exchange resin immobilized bimetallic nickel–iron nanopartcles to facilitate their application in pollutants degradation to facilitate their application in pollutants degradation. Journal of Colloid and Interface Science, 420, 158-165.

[29] Interaction of polybrominated diphenyl ethers and aerobic granular sludge: Biosorption and microbial degradation. BioMed Research International 2014, doi:10.1155/2014/274620.

[30] Effect of magnetic nanoparticles on the performance of activated sludge treatment system. Bioresource Technology 2013, 143, 555-561.

[31] Anaerobic ammonium oxidation (anammox): from laboratory to full-scale application. BioMed Research International. 2013, doi:10.1155/2013/469360.

[32] Application of low-cost sponge iron for complete debromination of polybrominated diphenyl ethers. Science of Advanced Materials. 2013, 5 (8), 1123-1131.

[33] Effect of organic matter on the performance of granular anammox process. Bioresource Technology

2012, 110, 701-705.

[34] Substrate removal evaluation of granular anammox process in a pilot-scale upflow anaerobic sludge blanket reactor. Ecological Engineering 2012, 38, 30-36.

[35] Fast start-up, performance and microbial community in a pilot-scale anammox reactor seeded with exotic mature granules. Bioresource Technology

2011, 102, 2448-2454.

[36] Performance and inhibition recovery of anammox reactors seeded with different types of sludge. Water Science and Technology 2011, 63, 710-718.

[37] Interaction of anammox bacteria and inactive methanogenic granules under high nitrogen selective pressure. Bioresource Technology 2010, 101, 6910-6915.

[38] The kinetics of nitrogen removal and biogas production in an anammox non-woven membrane reactor. Bioresource Technology 2010, 101, 5767-5773

[39] Enrichment and biofilm formation of Anammox bacteria in a non-woven membrane reactor. Bioresource Technology 2010, 101, 1792-1799.

[40] Nitrous oxide emission in an aerobic granulation sequencing batch airlift reactor at ambient temperatures. International Biodeterioration & Biodegradation 2013, 85, 533-538.

[41] Enhancement of carbon monoxide mass transfer using an innovative external hollow fiber membrane (HFM) diffuser for syngas fermentation: Experimental studies and model development. Chemical Engineering Journal 2012, 184, 268-277.

[42] In situ fabrication of single-crystalline porous ZnO nanoplates on zinc foil to support silver nanoparticles as a stable SERS substrate. CrystEngComm 2012, 14, 6023-6028.

[43] Synthesis and photocatalytic activity of one-dimensional CdS@TiO2 core-shell heterostructures. Nano-Micro Letters 2011, 3(1), 6-11.

[44] Theoretical evaluation of the configurations and Raman spectra of 209 Polychlorinated biphenyl congeners. Chemosphere 2011, 85, 412-417.

[45] Facile synthesis of N-acetyl-L-cysteine capped ZnS quantum dots as an eco-friendly fluorescence sensor for Hg²⁺. Talanta 2011, 85, 1738-1743.

[46] Effect of modifying agents on the preparation and properties of the new adsorbents from wheat straw. Bioresource Technology 2010, 101, 1477-1481.

[47] Adsorption of phosphate from aqueous solutions onto modified wheat residue: Characteristics, kinetic and column studies. Colloids and Surfaces B Biointerfaces 2009, 70, 46-52.