南京农业大学资源与环境学院具有较强的学科实力,学科排名处于ESI国际生态环境领域前1%之列。学院设有资源与环境、生态学2个一级学科博士后流动站、拥有资源与环境国家一级重点学科(在2012年全国第三轮一级学科评估中排名并列第一)、江苏高校优势学科和“985优势学科创新平台”,年招收研究生250名(其中博士生50多名)、本科生180名左右。近年来,有3篇博士论文被评为全国百篇优秀博士论文,另有2篇被评为全国优秀博士论文(提名)。本科专业中农业资源与环境专业为教育部特色专业和江苏省首批A类品牌专业,环境工程专业为省品牌专业,通过了全国工程教育的专业认证;学院教学中心被评为“江苏省实验教学省级示范中心”。学院独立设有黄瑞采教授奖学金和十多个企业奖助学金,年资助在校生近百万元。近年来作为第一完成单位获国家技术发明奖二等奖1项,国家科技进步奖二等奖1项,国家教学成果二等奖1项,省部级奖励10多项。承担着一批国家和地方部门的重大科研项目,年到位科研经费近6000万元,年发表SCI论文150多篇(单篇平均影响因子约3.5),其中有较高的比例入选ESI高频引用论文。在国际交流方面,有教育部和国家外专局的“农业资源与环境学科生物学研究”创新引智基地(“111”项目),与美国、英国、德国、加拿大、澳大利亚、日本、香港等国家和地区的数十所著名高校和研究所建立了较为紧密的合作关系。
一、导师介绍
陆隽鹤,先后在南京大学、华盛顿大学获得学士、硕士和博士学位,曾在佐治亚大学从事博士后研究工作,现为南京农业大学资源与环境学院教授、博士生导师,环境科学与工程系主任。
研究方向:
1. 水处理高级氧化工艺
2. 消毒副产物的生成和控制
3. 土壤和地下水有机污染修复
4. 有机污染物(包括农药、持久性污染物、内分泌干扰物、药物等)环境行为
代表性论文:
1. Lu, J.; Shi, Y.; Ji, Y.; Kong, D.; Huang, Q. Transformation of triclosan by laccase catalyzed oxidation in the presence of humic acid: the influence of humic acid-metal binding process. Environmental Pollution, (Accepted).
2. Ji, Y.; Shi, Y.; Kong, D.; Lu, J. Degradation of roxarsone in sulfate radical mediated oxidation process and formation of polynitrated by-products. RSC Advances, 6(85), 82040-82048 (2016).
3. Zhao, L.; Ji, Y.; Kong, D.; Lu, J.; Zhou, Q.; Yin, X. Simultaneous removal of bisphenol A and phosphate in zero-valent iron activated persulfate oxidation process. Chemical Engineering Journal, 303, 458-166 (2016). Lu, J.; Dong, W.; Ji, Y.; Kong, D.; Huang, Q. Natural organic matter exposed to sulfate radicals increases its potential to form halogenated disinfection byproducts. Environmental Science & Technology, 50(10), 5060-5067 (2016).
4. Ji, Y.; Kong, D.; Lu, J.; Kang, F.; Yin, X.; Zhou, Q. Cobalt catalyzed peroxymonosulfate oxidation of tetrabromobisphenol A: Kinetics, reaction pathways, and formation of brominated by-products. Journal of Hazardous Materials, 313, 229-237 (2016).
5. Xie, W.; Dong, W.; Kong, D.; Ji, Y.; Lu, J.; Yin, X. Formation of halogenated disinfection by-products in cobalt-catalyzed peroxymonosulfate oxidation processes in the presence of halides. Chemosphere, 154, 613-619 (2016).
6. Ji, Y.; Shi, Y.; Dong, W.; Jiang, M.; Wen, X.; Lu, J. Thermo-activated persulfate oxidation system for tetracycline antibiotics degradation in aqueous solution. Chemical Engineering Journal, 298, 225-233 (2016).
7. Jin, H.; Kong, D.; Ji, Y.; Lu, J.; Zhou, Q. Degradation of tetrabromobisphenol A in heat activated persulfate oxidation process. RSC Advances, 6(35), 29718-29726 (2016).
8. Ji, Y.; Xie, W.; Fan, Y.; Shi, Y.; Kong, D.; Lu, J. Degradation of trimethoprim by thermo-activated persulfate oxidation: Reaction kinetics and transformation mechanisms. Chemical Engineering Journal, 286, 16-24 (2016).
9. Luo, Q.; Lu, J.; Zhang, H.; Wang, Z.; Feng, M.; Chiang, D.; Woodward, D.; Huang, Q. Laccase catalyzed degradation of perfluorooctanoic acid. Environmental Science & Technology Letters, 2(7), 198-203 (2015).
10. Lu, J.; Shao, J.; Wang, Z.; Liu, H.; Huang, Q. Formation of halogenated polyaromatic compounds in laccase catalyzed transformation of halophenols. Environmental Science & Technology, 49(14), 8850-8857 (2015).
11. Ji, Y.; Fan, Y.; Liu, K.; Kong, D.; Lu, J. Thermo activated persulfate oxidation of antibiotic sulfamethoxazole and structurally related compounds. Water Research, 87, 1-9 (2015).
12. Liu, K.; Lu, J.; Ji, Y. Formation of brominated disinfection by-products and bromate in cobalt catalyzed peroxymonosulfate oxidation of phenol. Water Research, 84, 1-7 (2015).
13. Lu, J.; Wu. J.; Ji, Y.; Kong, D. Transformation of bromide in thermo activated persulfate oxidation processes. Water Research, 78, 1-8 (2015).
14. Fan, Y.; Ji, Y.; Kong, D.; Lu, J.; Zhou, Q. Kinetic and mechanistic investigation of the degradation of sulfamethazine in heat-activated persulfate oxidation process. Journal of Hazardous Materials, 300, 39-47 (2015).
15. Ji, Y.; Dong, C., Kong, D.; Lu, J. New insights into atrazine degradation by cobalt catalyzed peroxymonosulfate oxidation: kinetics, reaction products and transformation mechanisms. Journal of Hazardous Materials, 285, 491-500 (2015).
16. Lu, J.; Shao, J., Kong, D. Nucleophilic substitution as a mechanism of atrazine sequestration in soil. Journal of Hazardous Materials, 284, 103-107 (2015).
17. Ji, Y.; Dong, C., Kong, D.; Lu, J.; Zhou, Q. Heat-activated persulfate oxidation of atrazine: implications for remediation of groundwater. Chemical Engineering Journal, 263, 45-54 (2015).
18. Wang, B.; Kong, D.; Lu, J.; Zhou, Q. Removal of sulfonylurea herbicides in simulated drinking water treatment processes. Environmental Science & Pollution Research, 22(5), 3847-3855 (2015).
19. Zhou, L.; Luo. Q.; Lu, J.; Huang, Q. Transformation of 17-estradiol by Phanerochaete chrysosporium in different culture media. Bulletin of Environmental Contamination and Toxicology, 95(2), 265-271 (2015).
20. Zhou, L.; Luo. Q.; Lu, J.; Huang, Q. Transformation of 17-estradiol by Phanerochaete chrysosporium in different culture media. Bulletin of Environmental Contamination and Toxicology, 95(2), 265-271 (2015).
21. Lu, J.*; Kong, D.; Zhao, L.; Zhou, Q. Analysis of oestrogenic hormones in chicken litter by HPLC with fluorescence detection. International Journal of Environmental Analytical Chemistry, 94(8), 783-790 (2014).
22. Xia, Q.; Kong, D.; Liu, G.; Huang, Q.; Lu, J. Removal of steroid estrogen 17-estradiol in laccase-catalyzed treatment processes. Frontiers of Environmental Science & Engineering, 8(3), 372-378 (2014).
23. Mao, L.; Gao, S.; Huang, Q.; Lu, J. Horseradish peroxidase inactivation: heme destruction and influence of polyethylene glycol. Scientific Reports, 3 (2013). doi:10.1038/srep03126
24. Kong, D.; Xia, Q.; Huang, Q.; Lu, J. Covalent bonding of chloroanilines to humic constituents: Pathways, kinetics, and stability. Environmental Pollution, 180, 48-54 (2013).
25. Luo, Q.; Adams, P.; Lu, J.; Cabrera, M.; Huang, Q. Influence of poultry litter land application on the concentrations of estrogens in water and sediment within a watershed. Environmental Science: Processes & Impacts, 15, 1383-1390 (2013).
26. Mao, L.; Lu, J.; Habteselassie, M.; Luo, Q.; Gao, S.; Cabrera, M.; Huang, Q. Ligninase-mediated removal of natural and synthetic estrogens from water: II. Reactions of 17β-estradiol. Environmental Science & Technology, 44(7), 2599-2604 (2010).
27. Mao, L.; Lu, J.; Huang, Q.; Gao, S. Transformation of 17ß-estradiol mediated by lignin peroxidase: The role of veratryl alcohol. Archives of Environmental Contamination and Toxicology, 59(1), 13-19 (2010).
28. Mao, L.; Huang, Q.; Luo, Q.; Lu, J.; Yang, X.; Gao, S. Ligniase-mediated removal of 17b-estradiol from water in the presence of natural organic matter: efficiency and pathways. Chemosphere, 80(4), 469-473 (2010)
29. Lu, J.; Huang, Q. Removal of acetaminophen using enzyme mediated oxidative coupling processes: I. Kinetics and reaction pathways. Environmental Science & Technology, 43(18), 7062-7067 (2009).
30. Lu, J.; Huang, Q. Removal of acetaminophen using enzyme mediated oxidative coupling processes: II. Interactions with natural organic matter (NOM). Environmental Science & Technology, 43(18), 7068-7073 (2009).
31. Mao, L.; Huang, Q.; Lu, J.; Gao, S. Ligninase-mediated removal of natural and synthetic estrogens from water: I. Reaction behaviors. Environmental Science & Technology, 43(2), 374-379 (2009)
32. Lu, J.; Korshin, G.V. A spectroscopic study of the bromination of the endocrine disruptor ethynylestradiol. Chemosphere, 72(3), 504-508 (2008).
33. Lu, J.; Benjamin, M.M.; and Korshin, G.V. Reactions of the flavonoid hesperetin with chlorine: A spectroscopic study of the reaction pathways. Environmental Science & Technology, 38(17), 4603-4612 (2004).
34. Zou, H.; Yu, Z., Lu, J.; Xu, X.; and Zhang, J. A possible new disinfection by-product [2-chloro-5-oxo-3-hexene diacyl chloride (COHC)] in formation of MX by chlorinating model compounds. Water Research 36(18), 4535-4542 (2002).
35. Lu, J.; Zou, H.; Yu, Z.; Xu, X.; and Zhang, J. The interference of 2-chloro-5-oxo-3-hexene diacyl chloride (COHC) in the detection of strong mutagen MX. Chemosphere 48(1), 29-33 (2002).
36. Lu, J.; Zou, H.; Yang, C.; Yu, Z; and Zhang, J. Some problems in the detection of strong mutagen MX formed by chlorinating the aromatic acids and phenolic compounds. Water Research 36(4), 970-974 (2002).
37. Lu, J.; Zou, H.; Chen, Z.; Yang, C.; Zhang, J.; and Zhou, W. Screening the precursors of strong mutagen [3-chloro-4-(dichloromethyl)-5-hydroxy-2(5H)-furanone] MX from chlorinated water. Water Research 34(1), 225-229 (2000).
38. Chen, Z.; Yang, C.; Lu, J.; Zou, H.; and Zhang, J. Factors on the formation of disinfection by-products MX, DCA and TCA by chlorination of fulvic acid from lake sediments. Chemosphere 45, 379-385 (2001).
39. Liu, M.; Hou, L.; Yang, Y.; Zou, H.; Lu, J.; Wang, X. Distribution and sources of polycyclic aromatic hydrocarbons in intertidal flat surface sediments. Environmental Geology, 41, 90-95 (2001).
40. Yang, C.; Chen, Z.; Zou, H.; Lu, J.; and Zhang, J. Factors on the formation of strong mutagen [3-chloro-4-(dichloromethyl)-5-hydroxy-2(5H)-furanone] MX by chlorination of syringaldehyde. Water Research 34(17), 4313-4317 (2000).
二、应聘条件:
1、已毕业或即将毕业的本科生或硕士;
2、具备较好的化学基础,有发表核心论文或者SCI论文的学生优先考虑;
3、具备较好的英文听说读写能力和中文写作能力;
4、身体健康、热爱科学、刻苦勤奋、认真踏实、细致严谨、善于勾通、为人真诚、有团队合作精神。
三、应聘者请提供以下材料:
(1)个人简历:
(2)英语水平证明;
(3)反映本人学术水平的近5年代表性成果电子版或复印件。
四、联系人:
陆隽鹤教授 E-mail:jhlu@njau.edu.cn; 电话:025-84395164 |