学术研究成果
- Xing C, Liu C, Ye C, et al. Observations of the vertical
distributions of summertime atmospheric pollutants in Nam Co:
OH production and source analysis[J]. Atmospheric Chemistry and Physics, 2024, 24(17): 10093-10112.链接
- Lu C, Li Q, Xing C, et al. A novel hyperspectral
remote sensing technique with hour-hectometer level horizontal
distribution of trace gases: To accurately identify emission sources[J].
Journal of Remote Sensing, 2023, 3: 0098.链接
- Zhao F, Liu C, Hu Q, et al. High Spatial Resolution Ozone
Profiles Retrieved from the First Chinese Ultraviolet–Visible Hyperspectral
Satellite Instrument[J]. Engineering, 2024, 32: 106-115.链接
- Xing C, Liu C, Li Q, et al. Observations of HONO and its precursors
between urban and its surrounding agricultural fields: The vertical transports,
sources and contribution to OH[J]. Science of the Total Environment, 2024, 915: 169159.链接
- Xia C, Liu C, Cai Z, et al. Tracking SO2 plumes from the Tonga volcano eruption
with multi-satellite observations[J]. Iscience, 2024, 27(4).链接
- Hu Q, Ji X, Hong Q, et al. Vertical evolution of ozone formation sensitivity
based on synchronous vertical observations of ozone and proxies for its precursors:
implications for ozone pollution prevention strategies[J].
Environmental Science & Technology, 2024, 58(9): 4291-4301.链接
- Xing C, Liu C, Li Q, et al. Observations of HONO and its precursors
between urban and its surrounding agricultural fields: The vertical transports,
sources and contribution to OH[J]. Science of the Total Environment, 2024, 915: 169159.链接
- Xing C, Liu C, Lin J, et al. VOCs hyperspectral imaging:
A new insight into evaluate emissions and the corresponding health risk from industries[J].
Journal of Hazardous Materials, 2024, 461: 132573.链接
- Hong Q, Xing J, Xing C, et al. Investigating vertical distributions and
photochemical indications of formaldehyde, glyoxal, and NO2 from MAX-DOAS observations
in four typical cities of China[J]. Science of The Total Environment, 2024, 954: 176447.链接
- Li Y, Xing C, Hong Q, et al. Ozone Formation Sensitivity at Various Altitudes:
Seeking the Optimal Method for Sensitivity Threshold Determination[J].
Environmental Science & Technology Letters, 2024, 11(12): 1334-1339.链接
- Hong X, Gao Y, Wang J, et al. Evaluating the performance of carbon dioxide
and methane observations from carbon-monitoring satellite products over China[J].
Science of The Total Environment, 2024, 955: 176896.链接
- Zhao R, Zhang C, Su W, et al.
First satellite observation of total column water vapor from
the Chinese Environmental Trace Gases Monitoring Instrument[J].
Science China Earth Sciences, 2024: 1-21.链接
- Lin P, Tian Y, Borsdorff T, et al. TROPOMI unravels
transboundary transport pathways of atmospheric carbon monoxide in
Tibetan Plateau[J]. Science of The Total Environment, 2024, 952: 175942.链接
- Wang F, Xu Y, Patel P N, et al. Arctic amplification–induced
decline in West and South Asia dust warrants stronger antidesertification
toward carbon neutrality[J]. Proceedings of the National Academy of Sciences,
2024, 121(14): e2317444121.链接
- Liu C,
Xing C, Hu Q, et al. Stereoscopic hyperspectral remote sensing of the atmospheric environment:
Innovation and prospects[J]. Earth-Science Reviews, 2022, 226: 103958.链接
-
Xing C,
Liu C, Wu H, et
al. Ground-based vertical profile observations of atmospheric composition on the Tibetan Plateau
(2017–2019)[J]. Earth System Science Data, 2021, 13(10): 4897-4912.链接
- Chen
Y, Liu C, Su W, et al. Identification of volatile organic compound emissions from anthropogenic
and biogenic sources based on satellite observation of formaldehyde and glyoxal[J]. Science of
The Total Environment, 2022: 159997.链接
- Yin H,
Sun Y, You Y, et al. Using machine learning approach to reproduce the measured feature and
understand the model-to-measurement discrepancy of atmospheric formaldehyde[J]. Science of The
Total Environment, 2022, 851: 158271.链接
- Shan
C, Wang W, Xie Y, et al. Observations of atmospheric CO2 and CO based on in-situ and
ground-based remote sensing measurements at Hefei site, China[J]. Science of the Total
Environment, 2022, 851: 158188.链接
- Hong
Q, Zhu L, Xing C, et al. Inferring vertical variability and diurnal evolution of O3 formation
sensitivity based on the vertical distribution of summertime HCHO and NO2 in Guangzhou,
China[J]. Science of The Total Environment, 2022, 827: 154045.链接
-
C, Wang W, Xie Y, et al. Observations of atmospheric CO2 and CO based on in-situ and
ground-based remote sensing measurements at Hefei site, China[J]. Science of the Total
Environment, 2022, 851: 158188.链接
- Liu
C, Wang W, Sun
Y, et al. Observation of Greenhouse gases by ground-based FTIR at Hefei site and comparison with
satellite data[C]//2021 IEEE International Geoscience and Remote Sensing Symposium IGARSS. IEEE,
2021: 1677-1680.链接
- Chen
Y, Su W, Xing C, et al. Kilometer-level glyoxal retrieval via satellite for anthropogenic
volatile organic compound emission source and secondary organic aerosol formation
identification[J]. Remote Sensing of Environment, 2022, 270: 112852.链接
- Hu Q,
Liu C, Li Q, et
al. Vertical profiles of the transport fluxes of aerosol and its precursors between Beijing and
its southwest cities[J]. Environmental Pollution, 2022, 312: 119988.链接
- Zhang
C, Liu C, Li B, et al. Spatiotemporal neural network for estimating surface NO2 concentrations
over north China and their human health impact[J]. Environmental Pollution, 2022: 119510.链接