教育背景
香港科技大学
02/2014 – 01/2018
博士,土木工程系;
指导老师: 商启教授,国家重金属污染防治工程技术研究中心(香港分中心)
副主任
亚利桑那州州立大学
02/2016 – 06/2016
访问学者;
合作教授: Paul Westerhoff 教授,USEPA Center on Life Cycle of Nanomaterials
主任,NSF NanoSystems Engineering Research Center for NanoEnabled Water
Treatment Technologies 副主任
自 2016 年至今,合作 4 篇文章,2 项香港研究管理局优配研究金计划(RGC
GRF)
香港科技大学
02/2012 – 01/2014
硕士,土木工程系;
指导老师: 商启教授
国家重金属污染防治工程技术研究中心(香港分中心)副主任
香港科技大学
化学系
09/2008 – 01/2012
工作经历
香港科技大学
07/2020 – 至今
研究助理教授(Research Assistant Professor)
Ÿ 团队成员包括 2 名博士后,4 名博士生,和 2 名硕士生。
香港科技大学
08/2018 – 06/2020
博士后(Postdoc Fellow)
Ÿ 团队成员包括 1 名博士生,和 2 名硕士生。
香港教育大学
07/2016 – 08/2018
研究助理主持/参与项目:
共同主持 3 项香港政府研究项目
主持 2 项校级研究项目
作为主要参与人,参与香港政府重点项目(
> 3 千万港币)
1. Aquaponics in HKUST
HKUST Sustainability Smart Campus Funding, 2019 – 2021, 主持,经费:港币 384,320.
2. Portal water production from wastewater
HKUST Sustainability Smart Campus Funding, 2019 – 2020, 主持,经费:港币 100,000.
3. A novel near-UV-to-visible light photocatalytic chlorine activation process: mechanisms on radical
generation and application to degrading micropollutants using optical fibers
香港研究资助局,优配研究金,共同主持,经费:港币 614,675.
4. Micropollutant degradation by evanescent wave activated TiO2 thin films on quartz optical fibers
香港研究资助局,优配研究金,共同主持,经费: 港币 935,375.
5. Development of a ClO2-UV/chlorine advanced treatment process for provision of clean water
香港科技创新署,粤港合作项目,共同主持,经费: 港币 3,499,917.31.
6. The investigation of the occurrence of emerging pollutants and their control strategies in the Guangdong
Hong Kong-Macao Greater Bay Area
广东省环境科学研究院,共同主持,经费:港币 223,900.
7. A Paradigm-shifting, Fully-integrated, Compact Wastewater-to-resource Facility (WWRF)
香港研究资助局,主题研究项目,主要参与人,经费:港币 35,555,000
8. Nanosystems Engineering Research Center for Nantechnology Enabled Water Treatment Systems
US National Science Foundation, 2016, 参与人
学术和社会兼职
Ÿ 会议筹委会:
Ÿ The 4th International Forum on Asian Water Environment Technology, Hong Kong, China. (Online)
Ÿ Theme-based Research Project Workshop - T21-604/19-R. Innovative technologies for converting
wastewater to resource, Hong Kong, China. (Online)
Ÿ 审稿人,Environmental Science and Technology, ACS EST Water, ACS EST Engineering, Water
Research, Chemosphere, Chemical Engineering Journal, Journal of Hazardous Materials 等杂志
Ÿ 主任,香港科学园先进功能材料实验室,卢米科技(香港再工业化先进材料创新研发平台)
Ÿ 筹委会成员,香港科学园先进制造业中心智能材料工厂,卢米科技
Ÿ 筹委会成员,现代农业研究中心负责人,Guangzhou InnoX (国家火炬科技创业学院广州高新区
分院)
Ÿ 联合创始人,德镕科技(深圳)有限公司(深圳地铁 6 号线涂装改造工程核心抗菌纳米材料供应
商)
Ÿ 现代农业科技科学顾问,固高香港(准 IPO 公司)教学经验
拥有“项目式混合学习课堂(project-based blended learning)”以及“传统课堂(conventional
classroom learning)”教学经验
CIVL 1160 Civil Engineering and Modern Society, HKUST, 助教
Sept – Dec 2012
Ÿ 协助管理课堂内 20 个小组的项目提交平台
Ÿ
Ÿ
CIVL 142 Environmental Quality Control and Improvement, HKUST, 助教
Feb 2013 – May 2017
Ÿ 协助商启教授将该课程转变由“传统课堂”改革为“项目式混合学习课堂”
CIVL 1420 Environmental Quality Control and Improvement, HKUST (项目式混合学习
课堂), 助教
Sept – Dec 2017
Ÿ 协助商启教授进行课程改革,并负责其中一个学生团队的辅导
CIVL 1420 Environmental Quality Control and Improvement, HKUST (项目式混合学习
课堂), 教师
Sept 2018 – Dec 2018
Ÿ 负责有关鱼菜共生项目环节的教学
CIVL 2410 Environmental Assessment and Management, HKUST (项目式混合学
习课堂), 教师
Feb 2019 – May 2019
• 负责有关香港迪士尼乐园环境影响评估项目环节的教学
CIVL 5410 Physical-Chemical Water/Wastewater Treatment, HKUST,教师
Sept 2019 – Dec 2019
Ÿ 负责氯,臭氧,紫外氧化和消毒环节的教学(研究生课程)
CIVL 2410 Environmental Assessment and Management, HKUST (项目式混合学习课
堂), 教师
Feb 2020 – May 2020
• 负责有关香港迪士尼乐园环境影响评估项目环节的教学
CIVL 1420 Environmental Quality Control and Improvement, HKUST (项目式混合学习
课堂), 教师
Sept 2020 – Dec 2020
Ÿ 负责有关鱼菜共生项目环节的教学
CIVL 2410 Environmental Assessment and Management, HKUST (项目式混合学习课
堂), 教师
Feb 2021 – May 2021
Ÿ 负责有关香港迪士尼乐园环境影响评估项目环节的教学
CIVL 5410 Physical-Chemical Water/Wastewater Treatment, HKUST,教师
Sept 2021 – Dec 2021
Ÿ 负责臭氧氧化和消毒环节的教学(研究生课程)
CIVL 2410 Environmental Assessment and Management, HKUST (项目式混合学习课
堂), 教师
Feb 2022 – May 2022
Ÿ 负责所有教学发表论文:
论文: Google scholar: https://scholar.google.com.hk/citations?user=K7TB0-gAAAAJ&hl=en
Google scholar citation: 677
H-index: 15
i10: 17
一作和通讯作者:
1. Zihang Cheng, Li Ling* , Jingyun Fang, Chii Shang* , 2022. Visible light-driven g-C3N4 peroxymonosulfate
activation process for carbamazepine degradation: Activation mechanism and matrix effects. Chemosphere,
286 (3), 131906. (光催化活化过一硫酸盐过程)
2. Li Ling1,* , Tea Carletti, Zihang Cheng, Ruixuan Wang, Yanxiao Ren, Paul Westerhoff, Chii Shang,
Alessandro Marcello, Shuyu Chen* , 2021. In vitro rapid inactivation of SARS-CoV-2 by visible light
photocatalysis using boron-doped bismuth oxybromide. bioRxiv, 2021.03.09.434359. (光催化杀菌)
3. Yinghao Song1 , Li Ling1,* , Paul Westerhoff, Chii Shang* , 2021. Evanescent waves modulate energy
efficiency of photocatalysis within TiO2 coated optical fibers illuminated using LEDs. Nature
Communications, 12, 4101. (光学近场催化)
4. Zihang Cheng1 , Li Ling1,* , Zihao Wu, Jingyun Fang, Paul Westerhoff, Chii Shang* , 2020. A novel visible
light-driven photocatalytic chlorine activation process for carbamazepine degradation in drinking water,
Environmental Science & Technology, 54 (18), 11584-11593. (光催化活化次氯酸过程)
5. Yanxiao Ren, Jianfeng Cai, Ho Cheung, Hongyu Shao, Kunwa Au, Tszpong Chow, Weijia Wen, Li Ling* ,
Shuyu Chen* , 2021. Controlling microbial activity on walls by a photocatalytic nanocomposite paint: A field
study. American Journal of Infection Control, In press. (光催化杀菌)
6. Li Ling, Zhuo Deng, Jingyun Fang* , Chii Shang* , 2020. Bromate control during ozonation by ammonia
chlorine and chlorine-ammonia pretreatment: Roles of bromine-containing haloamines, Chemical
Engineering Journal, 389, 123447. (消毒副产物–控制技术)
7. Ran Yin, Li Ling*, Senhao Lu, Haoran Li, Chenchen Li, Chii Shang*, 2020. Degradation of aliphatic
halogenated contaminants in water by UVA/Cu–TiO2 and UVA/TiO2 photocatalytic processes: Structure
activity relationship and role of reactive species, Chemosphere, 260, 127644. (光催化污染物降解)
8. Jiajian Liu1 , Li Ling1 , Yi Li, Chao Wang, Chii Shang, 2018. A modified method of high molecular weight
adsorbable organic chlorine measurement in saline water: Dialysis pretreatment. Science of the Total
Environment, 639, 258-262. (消毒副产物---测量方法)
9. Ran Yin, Li Ling*, Chii Shang*, 2018. Wavelength-dependent chlorine photolysis and subsequent radical
production using UV-LEDs as light sources. Water Research, 142, 452-458. (紫外光化学活化次氯酸)
10. Li Ling, Zhaobing Li, Jingyun Fang, Chii Shang, 2018. Controlling bromate formation in the
Co(II)/peroxymonosulfate process by ammonia, chlorine-ammonia and ammonia-chlorine pretreatment
strategies. Water Research, 139, 220-227. (消毒副产物–控制技术)
11. Ran Yin, Zhuozhi Zhong, Li Ling*, Chii Shang*, 2018. The fate of dichloroacetonitrile in UV/Cl2 and
UV/H2O2 processes: implications on potable water reuse. Environmental Science: Water Research &
Technology. (消毒副产物–控制技术)
12. Ran Yin, Li Ling*, Yingying Xiang, Yuening Yang, Alok D. Bokare, Chii Shang*, 2018. Enhanced
photocatalytic reduction of chromium (VI) by Cu-doped TiO under UV-A irradiation, Separation and
Purification Technology, 190, 53-59. (光催化污染物降解)
13. Li Ling*, Heather Tugaoen, Jonathon Brame, Shahnawaz Sinha, Chuanhao Li, Jared J Schoepf, Kiril
Hristovski, Jae-Hong Kim, Chii Shang, Paul Westerhoff, 2017. Coupling light emitting diodes with
photocatalyst-coated optical fibers improves quantum yield of pollutant oxidation. Environmental Science &
Technology, 51 (22), 13319-13326. (光学近场催化)
14. Li Ling, Dapeng Zhang, Chihhao Fan*, Chii Shang*, 2017. A Fe (II)/citrate/UV/PMS process for
carbamazepine degradation at a very low Fe (II)/PMS ratio and neutral pH: The mechanism, Water Research,
124, 446-453. (紫外光化学活化过一硫酸盐)
15. Shaodong Hou1 , Li Ling1 , Chii Shang, Yinghong Guan, Jingyun Fang*, 2017. Degradation kinetics and pathways of haloacetonitriles by the UV/persulfate process, Chemical Engineering Journal, 320, 478-484.
(消毒副产物–控制技术)
16. Li Ling, Dapeng Zhang, Jingyun Fang, Chihhao Fan*, Chii Shang*, 2017. A novel
Fe(II)/citrate/UV/peroxymonosulfate process for micropollutant degradation: Optimization by response
surface methodology and effects of water matrices, Chemosphere, 184, 417-428. (紫外光化学活化过一硫
酸盐)
17. Li Ling, Jianliang Sun, Jingyun Fang*, Chii Shang*, 2016. Kinetics and mechanisms of degradation of
chloroacetonitriles by the UV/H2O2 process, Water Research, 99, 209-215. (消毒副产物–控制技术)
18. Li Ling, Chao Wang*, Mengling Ni, Chii Shang, 2016. Enhanced photocatalytic activity of TiO2/single
walled carbon nanotube (SWCNT) composites under UV-A irradiation, Separation and Purification
Technology, 169, 273-278. (光催化污染物降解)
其他作者:
19. Zhe Zhao, Mariana Lanzarini-Lopes, Emma Westerhoff, Xiangxing Long, Hojung Rho, Yuqiang Bi, Li
Ling, and Paul Westerhoff* , 2021. Evanescent wave interactions with nanoparticles on optical fiber modulate
side emission of germicidal ultraviolet light. Environmental Science: Nano, 8, 2441–2452. (光学近场催
化)
20. Ehsan Aghdam, Yingying Xiang, Li Ling, Chii Shang, 2021. New insights into micropollutant abatement in
ammonia-containing water by the UV/breakpoint chlorination process. ACS ES&T Water, 1 (4), 1025-1034.
(紫外光化学活化次氯酸)
21. Libei Huang, Li Ling, Jianjun Su, Yun Song, Zhaoyu Wang, Ben Zhong Tang, Paul Westerhoff, Ruquan Ye,
2020. Laser-engineered graphene on wood enables efficient antibacterial, anti-salt-fouling, and lipophilic
matter-rejection solar evaporation. ACS Applied Materials & Interfaces, 12 (46), 51864-51872. (石墨烯光
热产水)
22. Jianliang Sun, Yu Chen, Yingying Xiang, Li Ling, Jingyun Fang, Chii Shang, 2019. Oxidative
debromination of 2,2-bis(bromomethyl)-1,3-propanediol by UV/Persulfate process and corresponding
formation of brominated by-products, Chemosphere, 228, 735-743. (消毒副产物–生成机理)
23. Kaiheng Guo, Jinsong Zhang, Ailin Li, Ruijie Xie, Zhuojian Liang, Anna Wang, Li Ling, Xuchun Li,
Chuanhao Li, Jingyun Fang, 2018. UV irradiation of permanganate enhanced the oxidation of
micropollutants by producing HO• and reactive manganese species. Environmental Science & Technology
Letters, 5 (12), 750-756. (紫外光活化高锰酸根)
24. Shaodong Hou, Li Ling, Dionysios D Dionysiou, Yuru Wang, Jiajia Huang, Kaiheng Guo, Xuchun Li,
Jingyun Fang, 2018. Chlorate Formation Mechanism in the Presence of Sulfate Radical, Chloride, Bromide
and NOM. Environmental science & technology, 52 (11), 6317-6325. (消毒副产物–生成机理)
25. Tom Bond*, Alexandra Simperler, Nigel Graham, Li Ling, Wenhui Gan, Xin Yang, Michael R. Templeton,
2017. Defining the molecular properties of N-nitrosodimethylamine (NDMA) precursors using computational
chemistry, Environmental Science: Water Research & Technology, 3 (3), 502-512. (消毒副产物–生成机
理)
26. Zhaobing Li, Zhi Chen, Yingying Xiang, Li Ling, Jingyun Fang*, Chii Shang*, Dionysios D Dionysiou,
2015. Bromate formation in bromide-containing water through the cobalt-mediated activation of
Peroxymonosulfate, Water Research, 83, 132-140. (消毒副产物–生成机理)
27. Jing-Yun Fang, Li Ling, Chii Shang*, 2013. Kinetics and mechanisms of pH-dependent degradation of
halonitromethanes by UV Photolysis, Water Research, 47 (3), 1257-1266. (消毒副产物–控制技术)专利:
2 项美国专利(1 项通过专利审查,1 项在审), 3 项中国大陆专利(
3 项在审), 2 项香港专利, 4 项美国
临时专利。
The US Patent No. 17/020,446, China Patent No. 202011022741.1, Hong Kong Patent No. 42021029668.7
The US Patent No. 16/696,454, China Patent No. 201911170402.5, Hong Kong Patent No. 42020015134.8
5 年非独家授权给 Raze Technology Ltd.
研究社会影响:
1. 通过 Raze 公司为香港民居、商业大厦、公营机构提供超过五百万平米的抗新冠病毒涂层
2. 2021 年为香港市民提供了超过千万只由专利技术发展而来的镶嵌了光催化杀菌颗粒的口罩
3. 通过德镕科技(深圳)为深圳地铁六号线车厢翻新工程提供由专利技术发展而来的 B-BiOBr 抗病毒
表面涂层
1. US Patent. Ling Li, Cheng Z. and Shang C. Method for preparing optical fibers with high-particle-coated
porous polymeric outer coating layers. No. 17/020,446, October 2020 (在审).
2. China Patent. Ling Li, Cheng Z. and Shang C. Method for preparing optical fibers. No. 202011022741.1,
September 2020 (在审).
3. Hong Kong Patent. Ling L., Cheng Z. and Shang C. Method for preparing optical fibers. No.
42021029668.7, April 2021 (在审).
4. China Patent, Zhang X., Yang X., Fan M., Shang C., Ling Li, and Yin R. A New Process for Provision of
Clean Water by Integrated ClO2-UV/Chlorine Treatment. No. 202010669146.0, November 2020 (在审).
5. US Patent. Shang C., Ling Li, and Cheng Z. Production of reactive oxidative species by photocatalytic
activation of chlorine (I) under ultraviolet/visible light/near infrared irradiation. No. 16/696,454, November
2019 (授权).
6. China Patent. Shang C., Ling Li, and Cheng Z. Production of reactive oxidative species by photocatalytic
activation of chlorine (I) under ultraviolet/visible light/near infrared irradiation. No. 201911170402.5,
November 2019 (在审).
7. Hong Kong Patent, Shang C., Ling Li, and Cheng Z. Production of reactive oxidative species by
photocatalytic activation of chlorine (I) under ultraviolet/visible light/near infrared irradiation. No.
42020015134.8, November 2019 (在审).
8. US Provisional Patent. Ling L., Lin C., and Shang C. In-situ dichlorine monoxide generation method by free
chlorine addition in high chloride-containing waters. No. 63/253,555. October 2021.
9. US Provisional Patent. Lu X., Ling Li, Chen S., Shao H., Ren Y. Anti-scrubbing and antimicrobial
photocatalyst nanocomposite coating and its preparation method. No. 63/158,378. March 2021.
10. US Provisional Patent. Ling Li, Cheng Z. and Shang C. Method for preparing optical fibers with high
particle-coated porous polymeric outer coating layers. No. 62/973,354. October 2019.
11. US Provisional Patent. Shang C., Ling Li, and Cheng Z. Activation of free chlorine by photocatalytic process
using ultraviolet light, visible light and near infrared light for water treatment. No. 62/917,202. November
2018.会议报告(30)
邀请报告:
1. Li Ling, 2021. Development of a novel photocatalytic chlorine activation process for micropollutant
degradation. The 4th International Forum on Asian Water Environment Technology, Hong Kong, China.
2. Li Ling, 2019. Novel photocatalytic process and reactor design. Sun Yat-Sen University, Guangzhou, China
会议报告和墙报:
1. Yinghao Song, Chii Shang, Li Ling, 2022. Modulating uniformity of side-emitted light from TiO2-coated
quartz optical fibers illuminated by LEDs. ACS Spring 2022.
2. Chuanjing Lin, Li Ling, Chii Shang, 2022. Formation of dichlorine monoxide by free chlorine in high
chloride-containing water. ACS Spring 2022.
3. Yinghao Song, Chii Shang, Li Ling, 2021. Photocatalytic degradation of pollutants by TiO2 activated by
evanescent wave emitted from quartz fiber optics. The 4th International Forum on Asian Water Environment
Technology, Hong Kong, China. (Online)
4. Zihang Cheng, Li Ling, Chii Shang, 2021. Activation of chlorine by photocatalysts under near-UV-visible
light irradiation for 2-methylisoborneol degradation. The International Chemical Congress of Pacific Basin
Societies 2021. (Online)
5. Li Ling, 2020. Novel visible light-driven photocatalytic chlorine activation process for carbamazepine
degradation. The symposium on the health protection of the ocean and its high-quality sustainable
development cum 1st forum of Qingdao Hong Kong marine environment and ecology joint research center
for young scientists and postgraduates. (Online)
6. Li Ling, Zihang Cheng, Chii Shang, 2019. Activation of peroxymonosulfate by g-C3N4 under visible light
irradiation for carbamazepine degradation. 11th Micropol & Ecohazard Conference.
7. Zihang Cheng, Li Ling, Chii Shang, 2019. Activation of chlorine by g-C3N4 under visible light irradiation
for carbamazepine degradation. 11th Micropol & Ecohazard Conference.
8. Yinghao Song, Li Ling, Chii Shang, 2019. Evanescent waves generated in TiO2-coated quartz optical fibers
coupled with UV-LEDs improve quantum yields of pollutant degradation. 258th ACS National Meeting.
9. Li Ling, Haoran Li, and Chii Shang, 2018. Photocatalytic Degradation of Seven DBPs by TiO2 and Cu
TiO2: Kinetics and Quantitative Structure Activity Relationships. IWA 2nd Disinfection and Disinfection By
Products Conference. (Best Presenter)
10. Zihang Cheng, Li Ling, and Chii Shang, 2018. DBP control by photocatalysis: pretreatment of NOM
containing water and degradation of DCAN. IWA 2nd Disinfection and Disinfection By-Products
Conference.
11. Chao Wang, Jiajian Liu, Li Ling, and Chii Shang, 2018. Correlations between structural changes of
seawater organic matter and DBP formation in seawater chlorination. IWA 2nd Disinfection and Disinfection
By-Products Conference.
12. Jiajian Liu, Li Ling, Chao Wang, and Chii Shang, 2018. Integrated cyto- and geno- toxicity caused by DBPs
formed in seawater chlorination. IWA 2nd Disinfection and Disinfection By-Products Conference.
13. Chenchen Li, Li Ling, and Chii Shang, 2018. Enhanced photocatalytic degradation of 2,2-
Bis(bromomethyl)-1,3-propanediol and simultaneous inhibition of bromate formation by Cu-TiO2/UV-A.
IWA 2nd Disinfection and Disinfection By-Products Conference.
14. Ran Yin, Li Ling, and Chii Shang, 2018. Modelling the UV-LED based chlorine photodecay and radical
formation – Modelling and implications on the optimizations of different UV wavelengths and pHs. IWA
Leading Edge Conference on Water and Wastewater Technologies.
15. Jiajian Liu, Li Ling, Chao Wang, and Chii Shang, 2017. Property changes in seawater natural organic
matter during seawater chlorination and their correlations with disinfection by-products formation, 2017
Gordon Research Conference.
16. Li Ling, Jiajian Liu, Chao Wang, and Chii Shang, 2017. TOX measurement in high salinity water: A
modified method, 2017 Gordon Research Conference.
17. Heather Stancl, Li Ling, Jaehong Kim, Paul Westerhoff, Kiril Hristovski, 2016. Fiber optics as a fixed-film
substrate for photocatalysis via UV-LED irradiation, 252nd ACS National Meeting.
18. Li Ling, Dapeng Zhang, and Chii Shang, 2015. Degradation of Carbamazepine in Ferrous-enhanced UV/Persulfate and UV/Peroxymonosulfate Processes, EMCON forum 2015.
19. Li Ling, Da-Peng Zhang, Jing-Yun Fang, Chii Shang, 2015. Control of bromate formation in
UV/peroxymonosulfate, UV/persulfate and Co/peroxymonosulfate processes by ammonia, chlorine
ammonia and ammonia-chlorine processes, 250th ACS National Meeting.
20. Da-Peng Zhang, Li Ling, Jing-Yun Fang, Chii Shang, 2015. Bromate formation from bromide oxidation by
the UV/Peroxymonosulfate Process, 250th ACS National Meeting.
21. Li Ling, Feng Li, Chii Shang, 2015. Transformation pathways of chloramination of model cyclic
nitrogenous compounds, 2015 Gordon Research Conference, Drinking Water Disinfection By-Products.
22. Chii Shang, Jing-Yun Fang, Zhao-Bing Li, Li Ling, 2015. Control of bromate formation in
UV/peroxymonosulfate, UV/persulfate and Co/peroxymonosulfate processes by ammonia addition, IWA
LET conference.
23. Li Ling, Ran Yin, Yuening Yang, Chii Shang, 2015. Photocatalytic reduction of hexavalent chromium by
copper doped titanium dioxide, AWWA Annual Conference and Exposition.
24. Li Ling, Zhao-Bing Li, Da-Peng Zhang, Jing-Yun Fang, Zhi Chen, Chii Shang, 2015. Bromate formation in
bromide-containing water by UV and transition metals activated persulfate processes, IWA-LET conference.
25. Li Ling, Jing-Yun Fang, and Chii Shang, 2014. Direct and hydrogen peroxide-assisted UV photolysis of
halonitromethanes and haloacetonitriles, 248th ACS National Meeting.
26. Feng Li, Zhuo Deng, Li Ling, and Chii Shang, 2014. Transformation of model nitrogenous organic
compounds during chloramination, 248th ACS National Meeting.
27. Jing-Yun Fang, Chii Shang, Tat-Ming Sze, Ying-Hong Guan, Xu-Chun Li, and Li Ling, 2012. Control of
nitrogenous disinfection by-products by UV photolysis and UV-assisted AOPs, 243rd ACS National
Meeting.
28. Li Ling, Jing-Yun Fang, Minzhen Zeng, and Chii Shang, 2011. Degradation of halonitromethane by UV and
UV/H2O2: kinetic and product study, 4th IWA-ASPIRE Conference.