78 citations as recorded by crossref.

1. Investigation on the effect of ship emissions on the air quality: A case study in Hainan Island, China R. Xie et al.
2. Satellite unravels recent changes in atmospheric nitrogen oxides emissions from global ocean shipping X. Wang et al.
3. Data-driven assessment of air quality and health benefits from future shipping emission controls in coastal China Z. Luo et al.
4. Satellite-Based Estimates of Individual Ship NOx Emissions Z. Luo et al.
5. Source apportionment of cloud condensation nuclei in the China's marginal seas during the spring of 2021 W. Cui et al.
6. The effectiveness of emission control policies in regulating air pollution over coastal ports of China: Spatiotemporal variations of NO2 and SO2 Y. Zhang et al.
7. Automatic identification system in accelerating decarbonization of maritime transportation: The state-of-the-art and opportunities K. Ten et al.
8. Spatiotemporal variations of NO2 and its driving factors in the coastal ports of China Y. Zhang et al.
9. Impact of China's ECA policies on air pollution in coastal cities: Empirical analysis based on synthetic-DID model J. Shi et al.
10. Decoupling dynamics: Evaluating the relationship between ship emissions and socioeconomic progress in the Yangtze River Basin from 2007 to 2022 X. Peng et al.
11. Establishment of high temporal-spatial resolution anthropogenic emission inventory of air pollutants in 2017 for Macao, China Y. Wu et al.
12. The inland waterway ship emission inventory modeling: The Yangtze River case X. Peng et al.
13. Does the digital economy reduce shipping-related pollution? Evidence from coastal port cities in China X. Ding et al.
14. The impacts of ship emissions on ozone in eastern China X. Fu et al.
15. First Observation of Offshore Gradient of CO2 and CH4 Concentration in Southeast China from 21° N to 32° N Based on Shipborne Campaign Y. Xu et al.
16. Ship emissions and reduction potential under domestic policies and international cooperation: A case study in Hainan, China W. Zhang et al.
17. Decade-long variability of winter aerosols in East Asia and their associations with climatic factors Y. Jeong et al.
18. Pathways and geographical patterns of international shipping CO2 emissions in the future W. Yi et al.
19. Diverse changes in shipping emissions around the Western Pacific ports under the coeffect of the epidemic and fuel oil policy Y. Yuan et al.
20. Strategic approach to reduce environmental damage by CO2 and air pollution based on Energy-Material-Emission Nexus: Insights from Beijing D. Ouyang et al.
21. Health risks and air quality by PM2.5 in the leeward area of the Asian continent in the preceding year of the MARPOL Treaty enforcement X. Zhang & M. Aikawa
22. Decarbonizing inland waterway transport: scenario analysis and mitigation strategy for Jiangxi Province, 2019–2050 H. Xie et al.
23. World Wide Lightning Location Network (WWLLN) Global Lightning Climatology (WGLC) and time series, 2022 update J. Kaplan & K. Lau
24. Molecular compositions of marine organic aerosols over the Bohai and Yellow Seas: Influence of primary emission and secondary formation F. Cao et al.
25. Navigating environmental sustainability in inland waterway transport: emission challenges and solutions L. Zhang et al.
26. Measurement report: Six-year DOAS observations reveal post-2020 rebound of ship SO2 emissions in a Shanghai port despite low-sulfur fuel policies J. Liu et al.
27. Plastic waste discharge to the global ocean constrained by seawater observations Y. Zhang et al.
28. Real-world emission characteristics of VOCs from typical cargo ships and their potential contributions to secondary organic aerosol and O3 under low-sulfur fuel policies F. Zhang et al.
29. Ambient black carbon variations and emission characteristics of typical Chinese vessels in the Yangtze River Delta, China P. Zhang et al.
30. Mapping the evolution and future prediction of berthing ship CO2 emissions in China E. Zhu et al.
31. Port pollution prediction and management via multi-view intelligent computing: A case study of Tianjin Port T. Xue et al.
32. Quantifying the contribution of ship emissions to black carbon pollution along the coast of the East China sea using machine learning approach S. Ding et al.
33. Impacts of shipping emissions on ozone pollution in China Z. Luo et al.
34. Sudden decrease of airborne sulfates in summer at sites in western Japan prior to the enforcement of the MARPOL Treaty M. Kondo et al.
35. Investigation of formaldehyde sources and its relative emission intensity in shipping channel environment J. Liu et al.
36. Divergence in International Shipping CO2 Emissions across Economies from an Export Perspective X. Wang et al.
37. Recent advances and perspectives towards emission inventories of mobile sources: Compilation approaches, data acquisition methods, and case studies H. Jiang et al.
38. Spatio-Temporal Characteristics of Ship Carbon Emissions in Port of New York and New Jersey Based on AIS Data W. Lin et al.
39. Analysis of port pollutant emission characteristics in United States based on multiscale geographically weighted regression G. Xiao et al.
40. Spatial and Temporal Variation Characteristics of Air Pollutants in Coastal Areas of China: From Satellite Perspective X. Yan et al.
41. Recent Progress in Atmospheric Chemistry Research in China: Establishing a Theoretical Framework for the “Air Pollution Complex” T. Zhu et al.
42. Atmospheric impacts and regulation framework of shipping emissions: Achievements, challenges and frontiers H. Liu et al.
43. Size-segregated emission characteristics and associated toxicity of polycyclic aromatic compounds from agricultural machinery Y. Zhang et al.
44. Shipping-related pollution decreased but mortality increased in Chinese port cities Z. Luo et al.
45. Characteristics of Trace Metal Elements in Ambient Sub-Micron Particulate Matter in a Coastal Megacity of Northern China Influenced by Shipping Emissions from 2018 to 2022 J. Du et al.
46. Spatiotemporal evolution and prediction of Arctic shipping black carbon emissions based on AIS data 2016 to 2022 X. Qi et al.
47. Measuring the time-frequency spillover effect among carbon markets and shipping energy markets: A global perspective B. Meng et al.
48. The potential impacts of plastic on the marine carbon cycle Q. Pang et al.
49. Forecasting air pollutant emission intensity for maritime shipping based on machine learning and statistical time-series models E. Yao et al.
50. Long-Term Observation of Mixing States and Sources of Vanadium-Containing Single Particles from 2020 to 2021 in Guangzhou, China X. Xiong et al.
51. High aerosol loading over the Bohai Sea: Long-term trend, potential sources, and impacts on surrounding cities L. Li et al.
52. AIS-based operational phase identification using Progressive Ablation Feature Selection with machine learning for improving ship emission estimates K. Duan et al.
53. Quantifying urban NOx emissions in Wuhan during two major events, using mobile MAX-DOAS observations W. Tan et al.
54. Analysis on Evaluation and Spatial-Temporal Evolution of Port Cluster Eco-Efficiency: Case Study from the Yangtze River Delta in China M. Wang et al.
55. Monetizing shipping emission reduction: Environmental benefit analysis of domestic emission control areas policy 2.0 in China L. Meng et al.
56. Ship emission variations during the COVID-19 from global and continental perspectives W. Yi et al.
57. Global distribution and warming effect of brown carbon from shipping emissions Y. Sun et al.
58. HONO formation mechanisms and impacts on ambient oxidants in coastal regions of Fujian, China H. Zhang et al.
59. Inland ship emission inventory and its impact on air quality over the middle Yangtze River, China H. Huang et al.
60. Changes in the impacts of ship emissions on PM2.5 and its components in China under the staged fuel oil policies G. Yu et al.
61. Determination of NOx emission rates of inland ships from onshore measurements K. Krause et al.
62. Improving the global prediction of shipping emissions by modelling the effects of ambient conditions E. Majamäki et al.
63. Local-Scale Pollution Source Apportionment in Complex Port Environments Using High-Density Low-Cost Sensor Networks and Statistics Analysis H. Mei et al.
64. Characteristics of Ship-Emitted VOCs and Their Contributions to Urban Atmospheric VOCs in Guangzhou, China X. Zeng et al.
65. Advancing shipping NOx pollution estimation through a satellite-based approach Z. Luo et al.
66. Data-driven approach to evaluate the impact of hull roughness on main engine load of river-sea ships K. Duan et al.
67. Exploring the trends of research: a bibliometric analysis of global ship emission estimation practices K. Mohiuddin et al.
68. Large-scale land-sea interactions extend ozone pollution duration in coastal cities along northern China Y. Zheng et al.
69. Carbon footprints: Uncovering multilevel spatiotemporal changes of ship emissions during 2019–2021 in the U.S. N. Mou et al.
70. On-board measurements of OC/EC ratio, mixing state, and light absorption of ship-emitted particles W. Hou et al.
71. The high-resolution global shipping emission inventory by the Shipping Emission Inventory Model (SEIM) W. Yi et al.
72. Significant contribution of inland ships to the total NOx emissions along the Yangtze River X. Zhang et al.
73. Global mapping of disaggregated international trade-linked transportation CO 2 emissions Z. Luo et al.
74. Legal pathways for blue carbon protection and ship pollution in China: integrated ocean and climate governance Y. Zhou
75. Forecasting the potential of global marine shipping carbon emission under artificial intelligence based on a novel multivariate discrete grey model Z. Zeng et al.
76. Summer Ozone Pollution Episodes in South China and Transport Impacts from Southeast Asia B. Zhou et al.
77. Driving factors of ship-induced nitrogen dioxide concentrations over coastal seas of China: Implications for ship emission management Y. Zhang et al.
78. Modifications on the coastal atmospheric sulfur and cloud condensation nuclei along the Eastern China seas by shipping fuel transition J. Mao et al.