教師簡介
| 姓名:余浩 職務:環(huán)境科學系副主任 職稱:講師 電子郵箱:[email protected] | |
個人簡歷 | ||
余浩,講師,現(xiàn)為環(huán)境學院環(huán)境科學系副主任,碩士研究生導師。2021年6月博士畢業(yè)于北京師范大學環(huán)境科學與工程專業(yè),2021年7月進入河南師范大學環(huán)境學院工作。研究方向為空氣顆粒物源解析及其健康效應。目前主持有省部級以上項目3項,安陽國家氣候觀象臺開放基金1項。發(fā)表SCI論文20篇,中文核心7篇。 | ||
教育/工作經(jīng)歷 | ||
2021.07-至今. 河南師范大學環(huán)境學院 講師 2017.09-2021.07 北京師范大學水科學研究院 博士 2014.09-2017.07 河南師范大學環(huán)境學院 碩士 2012.09-2014.07 河南工程學院安全工程學院 學士 | ||
研究領域 | ||
環(huán)境空氣顆粒物源解析及其健康效應 | ||
主要學術及社會兼職 | ||
1.國家自然科學基金通訊評審人 2.中國化學會(CCS)會員 3.Anthropocene、Environmental Pollution、Atmospheric Research、Chemosphere、環(huán)境科學、環(huán)境科學研究等期刊審稿人 | ||
科研項目情況 | ||
[1] 國家自然科學基金青年基金-人體皮膚對環(huán)境空氣顆粒物的暴露特征及生物有效性研究2024.1-2026.12(主持) [2] 河南省高校重點科研項目-典型高風險人群皮膚對黑碳氣溶膠的暴露特征及影響因素研究2024.1-2025.12(主持) [3] 河南省博士后科研啟動項目-中原經(jīng)濟區(qū)黑碳氣溶膠驅(qū)動因素及健康風險評估2022.1-2024.12(主持) [4] 河南師范大學博士科研啟動研目-基于同位素源解析的鄭洛新區(qū)域黑碳氣溶膠健康風險評價2022.1-2024.12(主持) [5] 安陽國家氣候觀象臺2024年度開放基金-不同沙塵天對空氣顆粒物的影響及自然沙塵定量評估2024.1-2025.12(主持) [6] 國家自然科學基金面上項目-典型環(huán)境來源有機磷酸酯的透皮規(guī)律、生物有效性及基于角質(zhì)層的皮膚暴露風險研究 2025.1-2028.12(參與) [7] 新鄉(xiāng)市重大科技專項-河師大國控站PM10污染成因與精準防控 2022.1-2025.6(參與) | ||
代表性論文 | ||
[1] Yu, H.; Wang, J.; Geng, C.; Yang, W.; Wang, X.; Yin, B.; Gu, C.; Gao, S.; Chen, L.; Bai, Z.; Impact of anthropogenic and natural constituents on particulate matter in oasis cities on the southern margin of the Taklimakan Desert based on MERRA-2 and multi-site ground observation. Atmospheric Research, 2024, 311: 107685. [2] Yu, H.; Li, M.; Zheng, X.; Zhu, M.; Zheng, Z.; Xie, T.; Yan, G.; Hu, P.; Cao, Z.; Feng, J.; Sun, J.; Potential source and health risks of black carbon on MERRA-2 reanalysis data in a typical industrial city of North China Plain. Journal of Environmental Management, 2024, 354: 120367. [3] Yu, H.; Zhao, X.; Wang, J.; Yin, B.; Geng, C.; Wang, X.; Gu, C.; Huang, L.; Yang, W.; Bai, Z., Chemical characteristics of road dust PM2.5 fraction in oasis cities at the margin of Tarim Basin. Journal of Environmental Sciences 2020, 95, 217-224. [4] Yu, H.; Feng, J.; Su, X.; Li, Y.; Sun, J., A seriously air pollution area affected by anthropogenic in the central China: temporal-spatial distribution and potential sources. Environmental Geochemistry and Health 2020, 42, (10), 3199-3211. [5] Yu, H.; Yang, W.; Wang, X.; Yin, B.; Zhang, X.; Wang, J.; Gu, C.; Ming, J.; Geng, C.; Bai, Z., A seriously sand storm mixed air-polluted area in the margin of Tarim Basin: Temporal-spatial distribution and potential sources. Science of the Total Environment 2019, 676, 436-446. [6] Yao, D.; Wang, Y.; Bai, Z.; Cheng, M.; Tang, G.; Liu, Y.; Zhuoga, D.; Yu, H.; Bian, Y.; Wang, Y.; Vertical distribution of VOCs in the boundary layer of the Lhasa valley and its impact on ozone pollution. Environmental Pollution, 2024, 340, 122786. [7] Liu, M.; Yi, S.; Yu, H.; Zhang, T.; Dong, F.; Zhu, L.; Underlying Mechanisms for the Sex- and Chemical-Specific Hepatotoxicity of Perfluoroalkyl Phosphinic Acids in Common Carp (Cyprinus carpio). Environmental Science & Technology, 2023, 57(39), 14515-14525. [8] Li, N.; Zhang, J.; Yu, H.; Xu, M.; Feng, Q.; Zhang, J.; Wang, X.; Wei, P.; Fan, Y.; Yan, G.; Zou, W.; Cao, Z.; Li, L.; A systematic characterization of soil/dust ingestion for typical subpopulations in China. Environmental Geochemistry and Health, 2023, 45(8), 6199-6214. [9] Wang, M.; Lv, Y.; Lv, X.; Wang, Q.; Li, Y.; Lu, P.; Yu, H.; Wei, P.; Cao, Z.; An, T.; Distribution, sources and health risks of heavy metals in indoor dust across China. Chemosphere, 2023, 313, 137595. [10] Yan, G.; Yu, H.; Li, M.; Zheng, X., Li, S.; Yao, D.; Liu, M.; Hu, P.; Pollution characteristics of black carbon based on MERRA-2 reanalysis data in core city of Central Plains Economic Zone, China: Historical trend and potential sources. Frontiers in Environmental Science, 2022, 10, 1028572. [11] Yao, D.; Tang, G.; Wang, Y.; Yang, Y.; Wang, Y.; Liu, Y.; Yu, M.; Liu, Y.; Yu, H.; Liu, J.; Hu, B.; Wang, P.; Wang, Y., Oscillation cumulative volatile organic compounds on the northern edge of the North China Plain: Impact of mountain-plain breeze. Science of the Total Environment 2022, 821, 153541-153541. [12] Yao, D.; Li, C.; Niu, Q.; Gao, W.; Yu, H.; Yan, G.; Liu, J.; Cao, Z.; Wang, S.; Wang, Y.; Characteristics of Volatile Organic Compounds and Their Contribution to Secondary Organic Aerosols during the High O3 Period in a Central Industry City in China. Atmosphere, 2022, 13(10), 1625. [13] Zhao, R.; Yin, B.; Zhang, N.; Wang, J.; Geng, C.; Wang, X.; Han, B.; Li, K.; Li, P.; Yu, H.; Yang, W.; Bai, Z., Aircraft-based observation of gaseous pollutants in the lower troposphere over the Beijing-Tianjin-Hebei region. Science of the Total Environment 2021, 773. [14] Gao, S.; Bai, Z.; Liang, S.; Yu, H.; Chen, L.; Sun, Y.; Mao, J.; Zhang, H.; Ma, Z.; Azzi, M.; Zhao, H., Simulation of surface ozone over Hebei province, China using Kolmogorov-Zurbenko and artificial neural network (KZ-ANN) combined model. Atmospheric Environment 2021, 261. [15] Wang, N.; Zhao, X.; Wang, J.; Yin, B.; Geng, C.; Niu, D.; Yang, W.; Yu, H.; Li, W., Chemical Composition of PM2.5 and Its Impact on Inhalation Health Risk Evaluation in a City with Light Industry in Central China. Atmosphere 2020, 11, (4). [16] Gao, S.; Cong, Z.; Yu, H.; Sun, Y.; Mao, J.; Zhan, H.; Ma, Z.; Azzi, M.; Yang, W.; Jiang, Y.; Chen, L.; Bai, Z., Estimation of background concentration of PM in Beijing using a statistical integrated approach. Atmospheric Pollution Research 2019, 10, (3), 858-867. [17] Feng, J.; Yu, H.; Mi, K.; Su, X.; Li, Y.; Li, Q.; Sun, J., One year study of PM2.5 in Xinxiang city, North China: Seasonal characteristics, climate impact and source. Ecotoxicology and Environmental Safety 2018, 154, 75-83. [18] Feng, J.; Yu, H.; Mi, K.; Su, X.; Chen, Y.; Sun, J.-H.; Li, Q., The pollution characteristics of PM2.5 and correlation analysis with meteorological parameters in Xinxiang during the Shanghai Cooperation Organization Prime Ministers' Meeting. Environmental Geochemistry and Health 2018, 40, (3), 1067-1076. [19] Feng, J.; Yu, H.; Liu, S.; Su, X.; Li, Y.; Pan, Y.; Sun, J., PM2.5 levels, chemical composition and health risk assessment in Xinxiang, a seriously air-polluted city in North China. Environmental Geochemistry and Health 2017, 39, (5), 1071-1083. [20] Feng, J.; Yu, H.; Su, X.; Liu, S.; Li, Y.; Pan, Y.; Sun, J.H., Chemical composition and source apportionment of PM2.5 during Chinese Spring Festival at Xinxiang, a heavily polluted city in North China: Fireworks and health risks. Atmospheric Research 2016, 182, 176-188. [21] 劉夢琳, 王冰菁, 宿琪, 索秉旭, 馮精蘭, 余浩. 六氟環(huán)氧丙烷三聚體羧酸(HFPO-TA)污染現(xiàn)狀和生物毒性研究進展[J].環(huán)境化學,2023,43(05):1415-1428. [22] 張靜, 凡玉娟, 趙佳欣, 呂欣妍, 李娜, 施世宇, 張亞彩, 吳欣源, 趙友華, 余浩, 曹治國. 額頭皮脂-角質(zhì)層中有機磷阻燃劑的垂直分布規(guī)律及健康風險評估[J].環(huán)境科學學報, 2022,42(12):432-440. [23] 陸平, 趙雪艷, 殷寶輝, 張楠, 王歆華, 余浩, 楊文, 王曉麗. 臨沂市PM2.5和PM10中元素分布特征及來源解析[J].環(huán)境科學,2020,41(05):2036-2043. [24] 田莎莎, 張顯, 卞思思, 趙雪艷, 韓斌, 余浩, 殷寶輝, 陳莉, 白志鵬. 沈陽市PM2.5污染組分特征及其來源解析[J].中國環(huán)境科學,2019,39(02):487-496. [25] 張顯, 田莎莎, 劉盈盈, 趙雪艷, 余浩, 張輝, 陳莉, 王歆華. 沈陽市采暖期與非采暖期空氣PM2.5污染特征及來源分析[J].環(huán)境科學,2019,40(03):1062-1070. [26] 曹治國, 余剛, 呂香英, 王夢蕾, 李琦路, 馮精蘭, 閆廣軒, 余浩, 孫劍輝. 北京市典型室內(nèi)外灰塵中重金屬的粒徑和季節(jié)變異特征及人體暴露評估[J].環(huán)境科學,2016,37(04):1272-1278. [27] 馮精蘭, 余浩, 劉書卉, 劉夢琳, 孫劍輝. 新鄉(xiāng)市地表水體HCHs和DDTs的分布特征及生態(tài)風險評價[J].環(huán)境科學,2015,36(08):2849-2856. | ||
