2012年-2017年：兰州大学，环境科学，获博士学位。
2007年-2011年：西北师范大学，环境科学，获学士学位；

大气污染物环境行为;大气污染物模型模拟

2020年至今：兰州大学资源环境学院，研究员
2018年-2020年：北京大学，城市与环境学院，博士后

1.条件自编码对PM2.5浓度异常的检测;
2.基于深度学习模型的高纬度北极地区多环芳烃预测;
3.盲源信号提取北极地区持久性有机污染中的气候变化信号; 
4.北极地区持久性有机污染浓度突变和气候变化关联分析； 
5. O3前体物快速分析系统。

(1) 国家自然科学基金青年科学基金项目，42107106，基于“图机器学习”的PM2.5和O3区域协同控制模型构建与评估——以“2+26”城市为例，2022-01至2024-12，30万元，在研，主持。
(2) 甘肃省青年科技基金项目，21JR7RA524，兰州市有机磷阻燃剂污染特征研究，2021-11至2023-10，4万元，在研，主持。
(3) 国家自然基金重大项目，41991312，典型毒害有机污染物的环境地球化学过程、跨界面传输与多介质分配，2020-01至2024-12，450万元，在研，参加。
(4) 国家自然基金面上项目，41977357，我国西北能源东输的生态与气候效应模拟与评估，2020-01至2023-12，61万元，在研，参加。

[1]Zhao Y, Wang L, Luo J, Huang T, Tao S, Liu JF, Yu Y, Huang YF, Liu XR, Ma JM*. A deep learning prediction of polycyclic aromatic hydrocarbons in the high Arctic. Environmental science & technology, 2019, 53, 13238-13245.
[2]Zhao Y, Wang L, Huang T, Mo JY, Zhang XD, Gao H, Ma JM*. Feature extraction of climate variability, seasonality, and long‐term change signals in persistent organic pollutants over the Arctic and the Great Lakes[J]. Journal of Geophysical Research: Atmospheres, 2017, 122, 8921-8939.
[3]Zhao Y, Huang T, Wang L, Gao H, Ma JM*. Step changes in persistent organic pollutants over the Arctic and their implications, Atmospheric Chemistry and Physics, 2015, 15: 3479-3495.
[4]Wang L, Zhao Y, Yi X, Wang ZH, Yi Y, Huang T, Gao H*, Ma JM. Spatial distribution of atmospheric PAHs and their genotoxicity in petrochemical industrialized Lanzhou valley, northwest China. Environ. Sci. Pollut. Res. 2017, 24, 12820-12834.
[5]Wang L, Zhao Y, Liu XY, Huang T, Wang Y, Gao H*, Ma JM. Cancer risk of petrochemical workers exposed to airborne PAHs in industrial Lanzhou City, China. Environ. Sci. Pollut. Res. 2015, 22, 19793-19803.
[6]Wang L, Liu AP, Zhao Y, Mu X, Huang T, Gao H*, Ma JM. The levels of polycyclic aromatic hydrocarbons (PAHs) in human milk and exposure risk to breastfed infants in petrochemical industrialized Lanzhou Valley, Northwest China. Environ. Sci. Pollut. Res, 2018, 25, 16754-16766.
[7]Jinmu Luo; Yunman Han; Yuan Zhao; Xinrui Liu; Yufei Huang; Linfei Wang; Kaijie Chen; Shu Tao; Junfeng Liu; and Jianmin Ma*; An inter-comparative evaluation of PKU-FUEL global SO2 emission inventory, Science of The Total Environment, 2020, 722, 137755.
[8]Jinmu Luo; Yunman Han; Yuan Zhao; Yufei Huang; Xinrui Liu; Shu Tao; Junfeng Liu; Huang Tao; Linfei Wang; Kaijie Chen; Jianmin Ma*; Effect of northern boreal forest fires on PAH fluctuations across the arctic, Environmental Pollution, 2020, 261, 114186.
[9]Ling Z, Huang T, Zhao Y, Li JX, Zhang XD, Wang JX, Lian LL, Mao XX, Gao H, Ma JM*. OMI-measured increasing SO2 emissions due to energy industry expansion and relocation in northwestern China. Atmospheric Chemistry and Physics, 2017, 17(14): 9115-9131.
[10]Mo J, Huang T, Zhang XD, Zhao Y, Liu X, Li JX, Gao H, Ma JM. Spatiotemporal distribution of nitrogen dioxide within and around a large-scale wind farm–a numerical case study. Atmospheric Chemistry and Physics, 2017, 17(23): 14239.
[11] Huang T, Jiang W, Ling Z, Zhao Y, Gao H, Ma JM*. Trend of cancer risk of Chinese inhabitants to dioxins due to changes in dietary patterns: 1980–2009. Scientific reports, 2016, 6: 21997.
[12]Jiang WYH, Huang T, Mao XX, Wang L, Zhao Y, Jia CH, Gao H, Ma JM*. Gridded emission inventory of short-chain chlorinated paraffins and its validation in China. Environmental pollution, 2017, 220: 132-141.
[13] Shen Y, Zhang X, Brook J R, Huang T, Zhao Y, Gao H, Ma JM*. Satellite remote sensing of air quality in the Energy Golden Triangle in Northwest China. Environmental Science & Technology Letters, 2016, 3(7): 275-279. 
[14]Zhang X, Huang T, Zhang L, Shen YJ, Zhao Y, Gao H, Mao XX, Jia CH, Ma JM*. Three-North Shelter Forest Program contribution to long-term increasing trends of biogenic isoprene emissions in northern China. Atmospheric Chemistry and Physics, 2016, 16(11): 6949-6960.
[15]Zhang X, Du J, Huang T, Zhang LM, Gao H, Zhao Y, Ma JM*. Atmospheric removal of PM2. 5 by man-made Three Northern Regions Shelter Forest in Northern China estimated using satellite retrieved PM2. 5 concentration. Science of The Total Environment, 2017, 593: 713-721.
[16]Yu Y, Katsoyiannis A, Bohlin-Nizzetto P, Brorström-Lundén E, Ma JM, Zhao Y, Wu ZY, Tych W, Mindham D, Sverko E, Barresi E, Dryfhout-Clark H, Fellin P, Hung H*. Polycyclic Aromatic Hydrocarbons not declining in Arctic air despite global emission reduction. Environmental science & technology, 2019, 53(5): 2375-2382.
[17]Wang J, Mo J, Li J, Lin ZL, Huang T, Zhao Y, Zhang XD, Mao XX, Gao H, Shen YJ, Ma JM*. OMI-measured SO2 in a large-scale national energy industrial base and its effect on the capital city of Xinjiang, Northwest China. Atmospheric environment, 2017, 167: 159-169.