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马建锋 当前位置:首页  师资库  正高  马建锋


马建锋  博士 教授 博导

        2007年毕业于浙江大学环境科学系,主要从事水中有机污染物控制与净化、水处理催化材料开发与研究等工作

        在 App Cat BChemosphereChem Eng J、科学通报等刊物上发表SCI论文100多篇

        获得国家发明专利授权50多项

        江苏省“青蓝工程”中青年学科带头人

        两次入选江苏省“333”第三层次培养工程;

        常州市“831高层次创新创业人才培养工程”首批中青年骨干人才;

        办公电话:86330086

         E-MAIL: jma@zju.edu.cn


 教育背景:

           1995.06-1999.06    江苏石油化工学院   化学工程  工学学士   导师:陈群  教授

           2001.06-2004.06    浙江工业大学   环境工程  工学硕士    导师:陈建孟  教授

           2004.06-2007.06    浙江大学   环境科学  工学博士  导师:朱利中 教授

           2013.07-2014.07    宾夕法尼亚州立大学   环境工程  访问学者  导师:Sridhar Komarneni

 工作履历:

             1999.07-2001.06    南通江山农药化工股份有限公司  助理工程师

            2007.06-2010.08    江苏工业学院  讲师

            2010.08- 至今        常州大学环境与安全工程学院  教授

            2011.03-2011.06    芬兰萨塔昆塔应用科技大学  交流教师           

 学术兼职:

    中国环境科学学会 会员

            Journal of Porous Materials 编委

 主授课程:

   水处理实验技术  大气污染控制工程  专业外语  环境功能材料及应用


 研究领域:

    环境功能材料开发与应用  物体污染与修复技术  水污染控制化学


 奖励与荣誉:

    2021年 “餐厨废弃物高质分离与高效生化处理关键技术及应用”江苏省科学技术进步  一等奖

              2020年 “餐厨废弃物高质分离与高效生化处理关键技术及应用”中国石油和化学工业联合会科技进步奖 一等奖

              2013年“绿色高效分离技术的建立及其在环境污染物治理中的应用研究”中国石油和化学工业科学技术奖的科技进步 二等奖    

 研究项目:

           1. 采油废水中硫离子去除机理,中国石油化工股份有限公司江苏油田分公司,项目主持人,起止年月:2022-2024

           2. 催化臭氧氧化有机污染物材料及相关装置开发,扬州优境环保工程有限公司,项目主持人,起止年月:2022-2024

           3. 锰氧化物纳米孔材料制备及催化降解有机物体系构建, 江苏省自然科学基金,项目编号:BK20161189,项目主持人,起止年月:2016-2019

           4. 层状结构矿物剥离-负载磷酸银光催化性能及调控,国家自然科学基金项目,项目编号:21477009,项目主持人,起止年月:2014-2018

           5. 无机离子改性膨润土吸附-协同催化降解有机物机制,国家青年自然科学基金,项目编号:21007005,项目主持人,起止年月:2011-2013

           6. 典型污染场地地下水中硝酸盐阻断与修复技术研究,江苏省产学研前瞻项目,项目编号:BY2013024-16,项目主持人,起止年月:2013-2015

           7. 改性磁性纳米材料吸附处理有机废水及回收利用,江苏省自然科学基金,项目编号:BK200954,项目主持人,起止年月:2010-2012

团队活动:

 



 发表论文:
  

[1] Wang Qi, Zhu Fang, Cheng Hao, Komarneni Sridhar, Ma Jianfeng*. Efficient activation of persulfate by Ti3C2 MXene QDs modified ZnFe2O4 for the rapid degradation of tetracycline[J]. Chemosphere, 2023,328:138546.

[2] Zhang Wei, Feng Shijun, Ma Jianfeng*, Zhu Fang, Komarneni Sridhar. Degradation of tetracycline by activating persulfate using biochar-based CuFe2O4 composite[J]. Environ Sci Pollut Res Int, 2022,29(44):67003-67013.

[3] Zhu Fang, Zhou Siyi, Sun Mengying, Ma Jianfeng*, Zhang Wei, Li Kunjie, Cheng Hao, Komarneni Sridhar. Heterogeneous activation of persulfate by Mg doped Ni(OH)2 for efficient degradation of phenol[J]. Chemosphere, 2022,286:131647.

[4] Hu Jie, Lu Songhua, Ma Jianfeng*, Zhu Fang, Komarneni Sridhar. Composite of g-C3N4/ZnIn2S4 for efficient adsorption and visible light photocatalytic reduction of Cr (VI)[J]. Environmental Science and Pollution Research, 2022,29(50):76404-76416.

[5] Wang Min, Guo Beiyang, Zhan Jiayu, Zhuang Yuan, Komarneni Sridhar, Ma Jianfeng*. Mo doping of BiOBr nanoflowers for the degradation of tetracycline by heterogeneous activation of persulfate under visible light[J]. Chemical Physics Letters, 2022,807:140093.

[6] Hu Zihao, Guo Beiyang, Wu Huiqi, Zhu Fang, Komarneni Sridhar, Ma Jianfeng*. Activation of Na2S2O8 by MIL-101(Fe)/MoS2 composite for the degradation of tetracycline with visible light assistance[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2022,654:130202.

[7] Zhang He, Zhu Fang, Yu Fenting, Komarneni Sridhar, Ma Jianfeng*. Multi-hollow spherical CeO2 activates persulfate for heterogeneous degradation of organics[J]. Journal of Materials Research, 2022,37(17):2815-2824.

[8] Wang Qi, Mei Yu, Zhou Ruoxue, Komarneni Sridhar, Ma Jianfeng*. Persulfate activation of CuS@Ti3C2-based MXene with Bi-active centers toward Orange II removal under visible light[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2022,648:129315.

[9] Wang Min, Mei Yu, Chen Silu, Komarneni Sridhar, Ma Jianfeng*. Porous N-doped carbon nanospheres with encapsulated cobalt nanocrystals for persulfate activation to degrade tetracycline[J]. Ceramics International, 2022,48(19):27622-27630.

[10]  Zhang He, Mei Yu, Zhu Fang, Yu Fenting, Komarneni Sridhar, Ma Jianfeng*. Efficient activation of persulfate by C@Fe3O4 in visible-light for tetracycline degradation[J]. Chemosphere, 2022,306:135635.

[11]  Hu Zihao, Zhu Fang, Wu Huiqi, Komarneni Sridhar, Ma Jianfeng*. Activation of Na2S2O8 by MIL-101(Fe)/Co3O4 composite for degrading tetracycline with visible light assistance[J]. Inorganic Chemistry Communications, 2022,144:109902.

[12]  Yu Fenting, Zhu Fang, Zhang He, Komarneni Sridhar, Ma Jianfeng*. Efficient activation of K2S2O8 by MoS2-ZnFe2O4 composite for the rapid degradation of tetracycline[J]. Materials Letters, 2022,318:132204.

[13]  Zhu Fang, Xiao Qixing, Ji Lingli, Mei Yu, Komarneni Sridhar, Ma Jianfeng*. Enhanced degradation of organic pollutants by MnCo2O4.5/formic acid process: Active species and mechanism[J]. Materials Letters, 2022,324:132661.

[14]  Zhu Fang, Ji Qiuyue, Lei Yu, Ma Jianfeng*, Xiao Qixing, Yang Yan, Komarneni Sridhar. Efficient degradation of orange II by core shell CoFe2O4-CeO2 nanocomposite with the synergistic effect from sodium persulfate[J]. Chemosphere, 2022,291:132765.

[15]  Zhu Fang, Wu Huiqi, Zhang He, Komarneni Sridhar, Ma Jianfeng*. Heterogeneous activation of persulfate by Bi2MoO6-CuS composite for efficient degradation of orange II under visible light[J]. Chemosphere, 2022,293:133558.

[16]  Ji Lingli, Xiao Qixing, Zhu Lijun, Komarneni Sridhar, Ma Jianfeng*. CDs@Cr2O3 catalytic degradation of Orange II based on non-radical pathway [J]. Materials Chemistry and Physics, 2022,287:126257.

[17]  Lu Songhua, Hu Jie, Gao Yang, Zhao Yongqing, Ma Jianfeng*. The removal mechanism of Cr (VI) by calcium titanate: Insight into the role of surface reduced Cr (III) in removal process[J]. Applied Surface Science, 2022,601:154235.

[18]  Ji Qiuyue, Zhu Fang, Lei Yu, Cheng Hao, Ma Jianfeng*, Komarneni Sridhar.Fe-Co-SBA assisted by visible light can effectively activate NaHSO3 or H2O2 for enhanced degradation of Orange : Activation of NaHSO3 versus H2O2[J]. Microporous and Mesoporous Materials, 2021,315:110902.

[19]  Zhu Fang, Chen Jianxin, Ma Jianfeng*, Komarneni Sridhar. Degradation of organic pollutants by ZnMn2O4/organic acid system: Identification of active species[J]. Materials letters, 2021,293:129725.

[20]  Zhu Fang, Ma Jianfeng*, Ji Qiuyue, Cheng Hao, Komarneni Sridhar. Visible-light-driven activation of sodium persulfate for accelerating orange II degradation using ZnMn2O4 photocatalyst[J]. Chemosphere, 2021,278:130404.

[21]  Lei Yu, Hao Yixing, Cheng Hao, Ma Jianfeng*, Qin Yong, Kong Yong, Komarneni Sridhar. Degradation of Orange II by Fe2O3 and CeO2 nanocomposite when assisted by NaHSO3[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2021,628:127315.

[22]  Zhou Jin, Cheng Hao, Ma Jianfeng*, Peng mingguo, Kong Yong, Komarneni Sridhar.Persulfate activation by MnCuS nanocomposites for degradation of organic pollutants[J]. Separation and Purification Technology, 2021,261:118290.

[23]  Zhang Xiaorui, Mei Yu, Cheng Hao, Ma Jianfeng*, Zhu Fang, Komarneni Sridhar. Activation of K2S2O8 by Ni-Ce composite oxides for the degradation of orange II with visible light assistance[J]. Materials Chemistry and Physics, 2021,270:124784.

[24]Sun Mengying, Lei Yu, Cheng Hao, Ma Jianfeng*, Qin Yong, Kong Yong, Komarneni Sridhar. Mg doped CuO-Fe2O3 composites activated by persulfate as highly active heterogeneous catalysts for the degradation of organic pollutants[J]. Journal of Alloys and Compounds, 2020,825:154036.

[25]  Zhu Lijun, Cheng Hao, Ma Jianfeng*, Kong Yong, Qin Yong, Komarneni Sridhar.  Decolorization of methyl orange by MnO2/organic acid system: The role of Mn (III)[J]. Materials Research Bulletin, 2020,122:110670.

[26]  Zhu Boyuan, Cheng Hao, Qin Yong, Ma Jianfeng*, Kong Yong, Komarneni Sridhar.  Copper sulfide as an excellent co-catalyst with K2S2O8 for dye decomposition in advanced oxidation process[J]. Separation and Purification Technology, 2020,233:116057.

[27]  Dou Ruyan, Cheng Hao, Ma Jianfeng*, Qin Yong, Kong Yong, Komarneni Sridhar. Catalytic degradation of methylene blue through activation of bisulfite with CoO nanoparticles[J]. Separation and Purification Technology, 2020,239:116561.

[28]  Dou Ruyan, Cheng Hao, Ma Jianfeng*, Komarneni Sridhar. Manganese doped magnetic cobalt ferrite nanoparticles for dye degradation via a novel heterogeneous chemical catalysis[J]. Materials Chemistry and Physics, 2020,240:122181.

[29]  Zhu Boyuan, Cheng Hao, Ma Jianfeng*, Qin Yong, Kong Yong, Komarneni Sridhar. Bi2MoO6 microspheres for the degradation of orange II by heterogeneous activation of persulfate under visible light[J]. Materials Letters, 2020,261:127099.

[30]  Mei Yu, Zeng Jinchuan, Sun Mengying, Ma Jianfeng*, Komarneni Sridhar. A novel Fenton-like system of Fe2O3 and NaHSO3 for Orange II degradation[J]. Separation and Purification Technology, 2020,230:115866.

[31]Wang Xiaomin, Ma Jianfeng*, Kong Yong, Fan Changhai, Peng Mingguo, Komarneni Sridhar. Synthesis of p-n heterojunction Ag3PO4/NaTaO3 composite photocatalyst for enhanced visible-light-driven photocatalytic performance[J]. Materials Letters, 2019,251:192-195.

[31]  Sun Mengying, Huang Wenyan, Cheng Hao, Ma Jianfeng*, Kong Yong, Komarneni Sridhar. Degradation of dye in wastewater by Homogeneous Fe (VI)/NaHSO3 system[J]. Chemosphere, 2019,228:595-601.

[33]  Zhu Boyuan, Cheng Hao, Ma Jianfeng*, Kong Yong, Komarneni Sridhar. Efficient degradation of rhodamine B by magnetically separable ZnS-ZnFe2O4 composite with the synergistic effect from persulfate[J]. Chemosphere, 2019,237:124547.

[34]  Zhang Xinyu, Ma Jianfeng*, Fan Changhai, Peng Mingguo, Komarneni Sridhar. Enhancement of photo-fenton-like degradation of orange II by MnO2/NiO nanocomposite with the synergistic effect from bisulfite[J]. Journal of Alloys and Compounds, 2019,785:343-349.

[35]  Hou Zaiyao, Ma Jianfeng*, Fan Changhai, Peng Mingguo, Komarneni Sridhar. Iron activated sodium bisulfite enhances generation of Mn (III) species through the MnO2/bisulfite catalytic process[J]. Ceramics International, 2019,45(1):892-898.

[36]  Huang Daiqin, Ma Jianfeng*, Fan Changhai, Wang Kai, Zhao Wenchang, Peng Mingguo, Komarneni Sridhar. Co-Mn-Fe complex oxide catalysts from layered double hydroxides for decomposition of methylene blue: Role of Mn[J]. Applied Clay Science, 2018,152:230-238.

[37]  Dou Ruyan, Ma Jianfeng*, Huang Daiqin, Fan Changhai, Zhao Wenchang, Mingguo Peng Mingguo, Komarneni Sridhar. Bisulfite assisted photocatalytic degradation of methylene blue by Ni-Fe-Mn oxide from MnO4 intercalated LDH[J]. Applied clay science, 2018,161:235-241.

[38]  Ni Qingzhuo, Ma Jianfeng*, Fan Changhai, Kong Yong, Peng Mingguo, Komarneni Sridhar. Spinel-type cobalt-manganese oxide catalyst for degradation of Orange II using a novel heterogeneous photo-chemical catalysis system[J]. Ceramics International, 2018,44(16):19474-19480.

[39]  Liu Qing, Ma Jianfeng*, Wang Kai, Feng Ting, Peng Mingguo, Yao Zesheng, Fan Canghai, Komarneni Sridhar. BiOCl and TiO2 deposited on exfoliated ZnCr-LDH to enhance visible-light photocatalytic decolorization of Rhodamine B[J]. Ceramics International, 2017,43(7):5751-5758.

[40] Ma Jianfeng*, Liu Qing, Zhu Lifang, Zou Jing, Wang Kai, Yang Meirong, Komarneni Sridhar. Visible light photocatalytic activity enhancement of Ag3PO4 dispersed on exfoliated bentonite for degradation of rhodamine B[J]. Applied Catalysis B: Environmental, 2016,182:26-32.

[41]  Wang Kai, Ma Jianfeng*, Yao Zesheng, Zhang Wenyi, Komarneni Sridhar. Synthesis and photocatalytic properties of new ternary Ni-Fe-Cr hydrotalcite-like compounds[J]. Ceramics International, 2016,42(14):15981-15988.

[42] Ma Jianfeng*, Huang Daiqin, Zhang Wenyi, Zou Jing, Kong Yong, Zhu Jianxi, Komarneni Sridhar. Nanocomposite of exfoliated bentonite/g-C3N4/Ag3PO4 for enhanced visible-light photocatalytic decomposition of Rhodamine B[J]. Chemosphere, 2016,162:269-276.

[43] Ma Jianfeng*, Ding Jiafan, Yu Liangmin, Li Liangyin, Kong Yong, Komarneni Sridhar. BiOCl dispersed on NiFe-LDH leads to enhanced photo-degradation of Rhodamine B dye[J]. Applied Clay Science, 2015,109-110:76-82.

[44] Ma Jianfeng*, Wang Kai, Li Liangyin, Zhang Tianli, Kong Yong, Komarneni Sridhar. Visible-light photocatalytic decolorization of Orange II on Cu2O/ZnO nanocomposites[J]. Ceramics international, 2015,41(2):2050-2056.

[45] Ma Jianfeng*, Ding Jiafan, Yu Liangmin, Li Liangyin, Kong Yong, Komarneni Sridhar. Synthesis of Fe2O3-NiO-Cr2O3 composites from NiFe-layered double hydroxide for degrading methylene blue under visible light[J]. Applied Clay Science, 2015,107:85-89.

[46] Huang Daiqin, Ma Jianfeng*, Yu Liangmin, Wu Deren, Wang Kai, Yang Meiron, Papoulis Dimitrios, Komarneni Sridhar. AgCl and BiOCl composited with NiFe-LDH for enhanced photo-degradation of Rhodamine B[J]. Separation and Purification Technology, 2015,156:789-794.

[47] Huang Daiqin, Ma Jianfeng*, Fan Changhai, Wang Kai, ZhaonWenchang, Peng Mingguo, Komarneni Sridhar. In situ reduction for synthesis of nano-sized Cu2O particles on MgCuAl-LDH layers for degradation of orange II under visible light[J]. Ceramics International, 2015,41(2):3191-3196.

[48] Ma Jianfeng*, Huang Daiqin, Zou Jing, Li Liangyin, Kong Yong, Komarneni Sridhar. Adsorption of methylene blue and Orange II pollutants on activated carbon prepared from banana peel. Journal of Porous Materials. 2015, 22(2): 301-311.

[49] Ma Jianfeng*, Zou Jing, Li Liangyin, Yao Chao, Kong Yong, Cui Bingying, Zhu Runliang, Li Dinglong. Nanocomposite of attapulgite-Ag3PO4 for Orange II photodegradation[J]. Applied Catalysis B: Environmental, 2014,144:36-40.

[50] Ma Jianfeng*, Li Liangyin, Zou Jing, Kong Yong, Komarneni Sridhar. Highly efficient visible light degradation of Rhodamine B by nanophasic Ag3PO4 dispersed on SBA-15[J]. Microporous and Mesoporous Materials, 2014,193:154-159.

[51] Ma Jianfeng*, Huang Wenyan, Chen Kunfeng, Xue Dongfeng, Komarneni Sridhar. High Surface Area Activated Carbon Synthesized from Bio-Based Material for Supercapacitor Application. Nanoscience and Nanotechnology Letters. 2014, 6(11): 997-1000.

[52] Ma Jianfeng*, Zou Jing, Li Liangyin, Yao Chao, Zhang Tianli, Li Dinglong. Synthesis and characterization of Ag3PO4 immobilized in bentonite for the sunlight-driven degradation of Orange II[J]. Applied Catalysis B: Environmental, 2013,134-135:1-6.

[53]Ma Jianfeng*, Zou Jing, Cui Bingying, Yao Chao, Li Dinglong. Adsorption of Orange II dye from aqueous solutions using phosphoric-acid modified clam shell powder. Desalination and Water Treatment. 2013, 51(34-36): 6536-6544.

 

 

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