张玉璇
- 职务:
- 电子邮件:zhangyuxuan@mail.iap.ac.cn
- 研究方向:
气溶胶环境和气候效应
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
