江苏省“双创博士”，2021年

南京大学“大气科学青年学者”，2020年

[1] Zhang,Y.,Su,H.*,Kecorius,S.,Ma,N.,Wang,Z.,Sun,Y.,Zhang,Q.*,P?schl,U.,Wiedensohler,A.,Andreae,M.O.,and Cheng,Y.*:Extremely low-volatilityorganic coating leads to underestimation of black carbon climate impact,One Earth,2023,6 (2),158-166.

[2] Zhang,Y.,Wu,N.,Wang,J.,Huang,X.,Wang,Z.,Liu,T.,Geng,G.,Qi,X.,Nie,W.,Chi,X.,Zhang,Q.,Ding,A.*:Strong haze-black carbon-climate connectionsobserved across northern and eastern China,Journal of GeophysicalResearch: Atmospheres,2023,128,https://doi.org/10.1029/2023JD038505.

[3] Zhang,Y.,* Zhang,Q.,Wu,N.,and Ding,A.:Weakened haze mitigation induced by enhancedaging of black carbon in China,Environmental Science & Technology,2022,56 (12),7629-7636.

[4] Zhang,Y.,Zhang,Q.*,Yao,Z.,and Li H.:Particle size and mixing state of freshly emittedblack carbon from different combustion sources in China,EnvironmentalScience & Technology,2020,54,7766-7774.

[5] Zhang,Y.,Li,M.,Cheng,Y.,Geng,G.,Hong,C.,Li,H.,Li,X.,Tong,D.,Wu,N.,Zhang,X.,Zheng,B.,Zheng,Y.,Bo,Y.*,Su,H.,and Zhang,Q.*:Modeling the aging process of black carbon during atmospheric transportusing a new approach: a case study in Beijing,Atmospheric Chemistryand Physics,2019,19,9663-9680.

[6] Li,M.,Zhang,Q.*,Zheng,B.,Tong,D.,Lei,Y.,Liu,F.,Hong,C.,Kang,S.,Yan,L.,Zhang,Y.*,Bo,Y.,Su,H.,Cheng,Y.,and He,K.:Persistent growth ofanthropogenic non-methane volatile organic compound (NMVOC) emissionsin China during 1990–2017: drivers,speciation and ozone formationpotential,Atmospheric Chemistry and Physics,2019,19,8897-8913.

[7] Zhang,Y.,Su,H.*,Ma,N.,Li,G.,Kecorius,S.,Wang,Z.,Hu,M.,Zhu,T.,HeK.,Wiedensohler,A.,Zhang,Q.,Cheng,Y.*:Sizing of ambient particlesfrom a single-particle soot photometer measurement to retrieve mixingstate of black carbon at a regional site of the North China Plain. Journal of Geophysical Research: Atmospheres,2018,https://doi.org/10.1029/2018JD028810.

[8] Zhang,Y.,Zhang,Q.*,Cheng,Y.,Su,H.,Li,H.,Li,M.,Zhang,X.,Ding,A.,and He,K.:Amplification of light absorption of black carbon associatedwith air pollution,Atmospheric Chemistry and Physics,2018,18,9879-9896.

[9] Zhang,Y.,Li,X.,Li,M.,Zheng,Y.,Geng,G.,Hong,C.,Li,H.,Tong,D.,Zhang,X.,Cheng,Y.,Su,H.,He,K.,and Zhang,Q.*:Reduction in black carbonlight absorption due to multi-pollutant emission control during APECChina 2014,Atmospheric Chemistry and Physics,2018,18,10275-10287.

[10] Zhang,Y.,Zhang,Q.*,Cheng,Y.,Su,H.*,Kecorius,S.,Wang,Z.,Wu,Z.,Hu,M.,Zhu,T.,Wiedensohler,A.,and He,K.:Measuring the morphologyand density of internally mixed black carbon with SP2 and VTDMA: newinsight into the absorption enhancement of black carbon in the atmosphere,Atmospheric Measurement Techniques,2016,9,1833-1843.

[11] Zhang,Y.,Zhang,P.*,Guo,J.,Ma,W.,Xiao,L.:Spectroscopic analysis and biodegradationpotential study of dissolved organic matters in sewage sludge treatedwith high-pressure homogenization,Bioresource Technology,135,616-621,2013.

[12] Zhang,Y.,Zhang,P.*,Guo,J.,Ma,W.,Fang,W.,Ma,B.,and Xu,X.:Sewage sludge solubilizationby high-pressure homogenization,Water Science & Technology,67(11),2399-2405,2013.

[13] Zhang,Y.,Zhang,P.*,Zhang,G.,Ma,W.,Wu,H.,Ma,B.:Sewage sludge disintegrationby combined treatment of alkaline + high pressure homogenization,Bioresource Technology,123,514-519,2012.

[14] Zhang,Y.,Zhang,P.*,Ma,B.,Wu,H.,Zhang,S.,Xu,X.:Sewage sludge disintegrationby high-pressure homogenization: A sludge disintegration model. Journal of Environmental Sciences,24,814-820,2012.

[1] 2022-2025国家自然科学基金面上项目“基于高山站外场观测的边界层上部黑碳老化过程研究”,主持

[2] 2021-2024江苏省自然科学基金青年项目“大气区域污染中南京黒碳混合态和光吸收的观测与模拟”，主持