黄宇，博士，研究员，中国科学院“百人计划”入选者（A类，2015） ，中科院气溶胶化学与物理重点实验室副主任。2012年毕业于香港理工大学，获博士学位。

主要从事大气挥发性有机物 特征及其环境效应、室内空气质量、环境大气污染控制应用基础研究等。已发表SCI论文100余篇，发表的期刊包括Environmental Science \u0026 Technology，Applied Catalysis B:Environmental，Environmental Science: Nano等中科院一区期刊，3篇入选ESI高被引论文、1篇入选ESI热点论文；学术论文H指数达到23。以第一发明人获得国家发明专利授权6项。负责撰写爱思唯尔出版的英文专著Novel Nanomaterials for Biomedical，Environmental and 能量 Applications (Chapter 10)。目前担任国际期刊Aerosol Science \u0026 Engineering副主编、中国颗粒学会理事以及青年理事会秘书长等学术职务。2018年被聘为陕西省大气污染防治专家委员会委员。目前主持科技部重点研发专项“纳米专项”课题、国家自然科学基金及陕西省重点研发专项（产业链项目）等项目。曾获得第十届“中国颗粒学会青年颗粒学奖”、中国颗粒学会气溶胶专业委员会颁发的第一届“中国气溶胶技术创新奖”、第五届“中国气溶胶青年科学家奖”等奖项。

1. Huang, Y*, Zhu, D.;Zhang, Q.;Zhang, Y.;Cao, J-j.; Shen, Z.; Ho, W.; Lee, S.C.; Synthesis of a BiOCO/ZnFeOHeterojunction with Enhanced Photocatalytic Activity for Visible Light Irradiation-Induced NO Removal. Applied Catalysis B: Environmental2018, 234, 70-78. DOI: 10.1016/j.apcatb.2018.04.039.

2. Huang, Y*.;Gao, Y.; Zhang, Q.;Zhang, Y.;Cao, J.; Ho, W.; Lee, S.C.;Biocompatible FeOOH-Carbon Quantum Dots Nanocomposites for Gaseous NO x Removal under Visible Light: Improved Charge Separation and High Selectivity. Journal of Hazardous Materials2018, 354, 54-62.DOI: 10.1016/j.jhazmat.2018.04.071.

3. Huang, Y.;Ho, S. S. H.; Ho, K. F.; Lee, S. C.; Yu, J. Z.; Louie, P. K. K., Characteristics and health impacts of 挥发性有机物 and carbonyls associated with residential cooking activities in Hong Kong. Journal of Hazardous Materials 2011,186(1), 344-351. DOI: 10.1016/j.jhazmat.2010.11.003.

4. Huang, Y.*;Liang, Y.; Rao, Y.; Zhu, D.; Cao, J.J.; Shen, Z.; Ho, W.; Lee, S. C., Environment-friendly carbon quantum dots/ZnFeOphotocatalysts: characterization, biocompatibility, and mechanisms for NO removal. Environmental Science \u0026 Technology 2017, 51(5), 2924-2933. DOI: 10.1021/acs.突尼斯希望体育俱乐部6b04460.

5. Huang, Y.*;Gao, Y.; Zhang, Q.; Cao, J.J.; Huang, R.J.; Ho, W. *; Lee, S. C.,Hierarchical porous ZnWOmicrospheres synthesized by ultrasonic spray pyrolysis: Characterization, mechanistic and photocatalytic NOx removal studies. Applied Catalysis A: General 2016,515, 170-178.DOI: 10.1016/j.apcata.2016.02.007.

6. Huang, Y.;Ling, Z. H.; Lee, S. C.; Ho, S. S. H.; Cao, J. J.; Blake, D. R.; Cheng, Y.; Lai, S. C.; Ho, K. F.; Gao, Y.; Cui, L.; Louie, P. K. K., Characterization of volatile organic compounds at a roadside environment in Hong Kong: An investigation of influences after air pollution control strategies. Atmospheric Environment 2015,122, 809-818. DOI: 10.1016/j.atmosenv.2015.09.036.

7.Qian Zhang, Yu Huang, Shiqi Peng, Tingting Huang, Jun-ji Cao, Wingkei Ho, Shuncheng Lee, Synthesis of SrFeTiOnanocubes with tunable oxygen vacancies for selective and efficient photocatalytic NO oxidation, Applied Catalysis B: Environmental2018.DOI: 10.1016/j.apcatb.2018.07.076.

8.Chen, L.; Huang, Y*.; Xue, Y.; Cao, J.; *.; Wang, W.;Effect of oligomerization reactions of Criegee intermediate with organic acid/peroxy radical on secondary organic aerosol formation from isoprene ozonolysis. Atmospheric Environment2018, 187.DOI: 10.1016/j.atmosenv.2018.06.001.

9.Wang, Z.; Huang, Y.*;Chen, L.; Chen, M.; Cao, J. *; Ho, W.K.; Lee, S. C., In-situ g-CNself-sacrificial synthesis of g-CN/LaCOOH heterostructure with booming interfacial charge transfer and separation for photocatalytic NO removal. Journal of Materials 化学 A 2018, 6, 972-981.DOI: 10.1039/C7TA09132J.

10.Lu,Y.; Huang, Y*.;Zhang,Y.;Cao, J. J*;Li, H.; Bian, C.; Lee, S.C.; Oxygen Vacancy Engineering of BiO/BiOCO, Heterojunctions: Implications of the Interfacial Charge Transfer, NO Adsorption and Removal. Applied Catalysis B:Environmental2018, 231, 357-367.DOI: 10.1016/j.apcatb.2018.01.008.

11.Chen, L.; Huang, Y.*;Xue, Y. G.; Cao, J. J. *; Wang, W. L., Competition between HOand HOReactions with CHOO/anti-CHCHOO in the oligomer formation: A theoretical perspective. Journal of Physical Chemistry A 2017,121(37), 6981-6991.DOI: 10.1021/acs.jpca.7b05951.

12.Zhang, Q.; Huang, Y.*; Peng, S.; Zhang, Y.; Shen, Z.; Cao, 约翰·约翰逊.*; Ho, W.; Lee, S. C.; Pui, D. Y. H., Perovskite LaFeO-SrTiOcomposite for synergistically enhanced NO removal under visible light excitation. Applied Catalysis B-Environmental 2017,204, 346-357.DOI: 10.1016/j.apcatb.2016.11.052.

13.Wang, Z.; Huang, Y.*;Ho, W.; Cao, J. *; Shen, Z.; Lee, S. C., Fabrication of BiOCO/g-CNheterojunctions for efficiently photocatalytic NO in air removal: In-situ self-sacrificial synthesis, characterizations and mechanistic study. Applied Catalysis B-Environmental 2016,199, 123-133.DOI: 10.1016/j.apcatb.2016.06.027.

14.Zhang, Q.; Huang, Y.*;Xu, L.; Cao, 约翰·约翰逊 *; Ho, W.; Lee, S. C., Visible-light-active plasmonic Ag-SrTiOnanocomposites for the degradation of NO in air with high selectivity. Acs Applied Materials \u0026 Interfaces 2016,8(6), 4165-4174.DOI: 10.1021/acsami.5b11887.

15.Gao, Y.; Huang, Y.*;Li, Y.; Zhang, Q.; Cao, 约翰·约翰逊; Ho, W.; Lee, S. C., Plasmonic Bi/ZnWOmicrospheres with improved photocatalytic activity on NO removal under visible light. Acs Sustainable 化学 \u0026 Engineering 2016,4(12), 6912-6920. DOI: 10.1021/acssuschemeng.6b01852.

16.Chen, M.; Yao, J.; Huang, Y.*; Gong, H.; Chu, W., Enhanced photocatalytic degradation of 环丙沙星 over BiO/(BiO)COheterojunctions: Efficiency, kinetics, pathways, mechanisms and toxicity evaluation. Chemical Engineering Journal 2018, 334 (Supplement C), 453-461.DOI:10.1016/j.cej.2017.10.064.

17.Li, B.; Ho, S. S. H.; Xue, Y.; Huang, Y.*;Wang, L.; Cheng, Y.; Dai, W.; Zhong, H.; Cao, J.; Lee, S., Characterizations of volatile organic compounds (挥发性有机物) from vehicular emissions at roadside environment: The first comprehensive study in Northwestern China. Atmospheric Environment 2017,161, 1-12. DOI: 10.1016/j.atmosenv.2017.04.029.

18.Ho, S. S. H.; Wang, L.; Chow, J. C.; Watson, J. G.; Xue, Y.; Huang, Y.*;Qu, L.; Li, B.; Dai, W.; Li, L.; Cao, J., Optimization and evaluation of multi-bed adsorbent tube method in collection of volatile organic compounds. Atmospheric Research 2017. DOI: 10.1016/j.atmosres.2017.11.026.

19.Ho, S. S. H.; Chow, J. C.; Watson, J. G.; Wang, L.; Qu, L.; Dai, W.; Huang, Y.*;Cao, J., Influences of relative humidities and temperatures on the collection of C-Caliphatic hydrocarbons with multi-bed (Tenax TA, Carbograph 1TD, Carboxen 1003) sorbent tube method. Atmospheric Environment 2017,151, 45-51.

20.Li, H.;Huang, T.; Lu, Y.; Cui, L.; Wang, Z.;Zhang, C.;Lee, S.C *.; Huang, Y*.;Cao, J.;Ho, W-K.;Unraveling the mechanisms of room-温度 catalytic degradation of indoor formaldehyde and the biocompatibility on colloidal TiO-supported MnO-CeO. Environmental Science: Nano2018,5. DOI: 10.1039/C8EN00176F.

1. 一种可见光催化活性的BiO/(BiO)CO异质结催化剂及其制备方法。中国发明专利，授权号：ZL 201510260707.0

2. 一种具有可见光响应能力的BiSnO纳米晶体及其制备方法。中国发明专利，授权号：ZL 201510696028.8

3. 一种具有光催化功能的卷轴过滤式室内空气净化器。应用新型专利，授权号：ZL201620158952.0

4. 一种低温制备粉体-TiO光诱导超亲水复合薄膜的方法。中国发明专利，授权号：ZL 201610134005.2

5. 一种g-CN/TiO异质结光催化薄膜的制备方法及其应用。中国发明专利，授权号：ZL 201610134111.0

6. 一种具有高效光催化活性的TiO薄膜低温制备方法。中国发明专利，授权号：ZL 201610133995.8

7. 一种碳量子点/铁酸锌复合光催化材料的制备方法。中国发明专利，授权号：ZL 201610132912.3

8. 一种小型太阳能空气净化装置。中国实用新型专利，授权号：ZL 201620478874.2

9. 一种兼具空气净化与室外照明的小型净化装置。中国实用新型专利，授权号：ZL 201621006072.8

10.具有光催化活性的酸铋多孔微米球及其超声雾化制备方法。中国发明专利，专利号：ZL 201610165257.1