1. 環境光學測量技術研制及其應用,如臭氧光化學生成速率、大氣顆粒物對過氧自由基攝取系數、自由基總反應活性、顆粒态活性氧等的測量方法及其應用;
2. 臭氧污染形成機制及其環境影響效應研究;
3. 大氣顆粒物中活性氧的含量、來源、轉化機制及其健康影響效應研究。
1. 環境光學測量技術研制及其應用,如臭氧光化學生成速率、大氣顆粒物對過氧自由基攝取系數、自由基總反應活性、顆粒态活性氧等的測量方法及其應用;
2. 臭氧污染形成機制及其環境影響效應研究;
3. 大氣顆粒物中活性氧的含量、來源、轉化機制及其健康影響效應研究。
1. 國家自然科學基金委會,青年科學基金項目,大氣臭氧光化學生成速率與生成敏感性的直接測量及其應用,2023-08至2026-12,30萬元,項目編号:42305096,主持;
2. 廣東省科學技術廳,廣東省重點領域研發計劃項目,臭氧污染快速預警及精準應對關鍵技術研發及應用示範,2021-01至2024-01,150萬元,項目編号:2020B1111360003,廣東省科學技術廳,課題負責人;
3. 廣東省基礎與應用基礎基金委員會,廣東省自然科學基金面上項目,大氣顆粒物對過氧自由基攝取系數的直接測量及其應用,2024-01至2026-12,15萬元,項目編号:2414050001067,主持;
4. 廣東省基礎與應用基礎基金委員會,廣東省自然科學基金青年科學基金項目,新型臭氧生成速率檢測儀的搭建,表征與應用,2020-10至2024-09,10萬元,項目編号:2020A1515110526,廣東省基礎與應用基礎基金委員會,主持;
5. 中國21世紀議程管理中心,國家重點研發計劃項目,大氣活性含碳成分的閉合外場觀測,2023-12至 2027-11,36萬元,項目編号:2023YFC3706204,項目骨幹,參與。
(一)論文
部分發表文章列表:
[1] J. Zhou*, K. Sato, Y. Bai, Y. Fukusaki,Y. Kousa , S. Ramasamy, A. Takami, A. Yoshino, T. Nakayama, Y. Sadanaga, Y. Nakashima, J. Li, K. Murano, N. Kohno, Y. Sakamoto &Y. Kajii*: Kinetics and impacting factors of HO2 uptake onto submicron atmospheric aerosols during the 2019 Air QUAlity Study (AQUAS) in Yokohama, Japan. Atmos. Chem. Phys., 2021, 21(16): 12243-12260.
[2] Y. Hao#, J. Zhou*#, P. Wang, Y. Yang, S. Huangfu, Y. Li, X. B., C. Zhang, A. Liu,Y. Wu, Y. Zhou, S. Yang, Y. Peng, J. Qi, X. He, X. Song, Y. Chen, B. Yuan* & M. Shao: Measuring and modeling investigation of the net photochemical ozone production rate via an improved dual-channel reaction chamber technique. Atmos. Chem. Phys., 2023, 23(17): 9891-9910.
[3] J. Zhou*, Y. Fukusaki, K. Murano, T. Gautam, Y. Bai, Y. Inomata, H. Komatsu, M. Takeda, B. Yuan, M. Shao, Y. Sakamoto & Y. Kajii*: Investigation of HO2 uptake mechanisms onto multiple-component ambient aerosols collected in summer and winter time in Yokohama, Japan. J. Environ. Sci., 2024, 137: 18-29.
[4] J. Zhou*, W. Wang, Y. Wu, C. Zhang, A. Liu, Y. Hao, X.-B. Li & M. Shao: Development and application of a nitrogen oxides analyzer based on the Cavity Attenuated Phase Shift (CAPS) technique, J. Environ. Sci., 2025, 150:692-703.
[5] J. Zhou, E. A. Bruns, P. Zotter, G. Stefenelli, A. Prévôt, U. Baltensperger, I. EI-Haddad, J. Dommen*: Development, characterization and first deployment of an improved online reactive oxygen species analyzer. Atmos. Meas. Tech., 2018,11, 65-80.
[6] J. Zhou, P. Zotter, E. A. Bruns, D. Bhattu, G. Stefenelli, D. Bhattu, S. Brown, N. Marchand, A. Bertrand, H. Lamkaddam, J. G. Slowik, A.S.H Prévôt, U. Baltensperger, T. Nussbaumer, I. El-Haddad & J. Dommen*: Particle-bound reactive oxygen species (PB-ROS) emissions and formation pathways in wood smoke under different burning and aging conditions. Atmos. Chem. Phys., 2018, 18, 6985-7000.
[7] J. Zhou, M. Elser, M. Krapf, R. Fröhlich, D. Bhattu, G. Stefenelli, P. Zotter, E. A. Bruns, S. M. Pieber, H. Ni, Q. Y. Wang, Y. Wang, Y. Zhou, J.-J. Cao, M. Xiao, J. G. Slowik, S. Brown, L. E. Cassagnes, K. R. Daellenbach, T. Nussbaumer, M. Geiser, A.S.H. Prévôt, I. El-Haddad, R.-J. Huang*, U. Baltensperger & J. Dommen*: Predominance of secondary Organic aerosol to particle-bound reactive oxygen species activity in fine ambient aerosol. Atmos. Chem. Phys., 2019, 19, 14703–14720.
[8] J. Zhou*, M. Kentaro, N. Kohno, Y. Sakamoto, Y. Kajii*: Real-time quantification of the total HO2 reactivity of ambient air and HO2uptake kinetics onto ambient aerosols in Kyoto (Japan), Atmos. Environ., 2020, 223,117189.
[9] J. Zhou, J. Gao*, Y. Liu, K. Ba, R. Zhang: Removal of fluoride from water by five Submerged plants. Bull. Environ. Contam. Toxicol., 2012, 89, 395–399.
[10] J. Zhou, Y. Liu, J. Gao*, R. Zhang, Z. Zhang, N. Sugiura: Contaminant removal performances on domestic sewage using modified anoxic/anaerobic/oxic process and micro-electrolysis, Environ. Technol., 2013, 34, 2773-2779.
[11] J. Zhou, G. Liu, W. Huang, J. Gao*, Z. Wang, R. Zhang: Contaminant removal performances on domestic sewage using modified Merger Johkaso, Technol. Water Treat., 2012, 38, 103-107.
[12] X. Guan#, J. Zhou#, N. Ma, X. Chen, J. Gao, R. Zhang: Studies on modified conditions of bio-char and the mechanism for fluoride removal, Desalin. Water Treat., 2015, 55: 440-447.
[13] D. Bhattu, P. Zotter, J. Zhou, G. Stefenelli, F. Klein, A. Bertrand, B. Temime-Roussel, N. Marchand, J.G. Slowik, U. Baltensperger, A.S.H. Prévôt, T. Nussbaumer, I. El Haddad, J. Dommen*: Effect of stove technology and combustion conditions on gas and particulate emissions from residential biomass combustion. Environ. Sci. Technol., 2019, 53, 2209-2219.
[14] M. G. Perrone*, J. Zhou, M. Malandrino, G. Sangiorgi, C. Rizzi, L. Ferrero, J. Dommen, E. Bolzacchini: PM chemical composition and oxidative potential of the soluble fraction of particles at two sites in the urban area of Milan, Northern Italy. Atmos. Environ., 2016, 128, 104-113.
[15] Y. Sakamoto, J. Zhou, N. Kohno, M. Nakagawa, J. Hirokawa & Y. Kajii: Kinetics study of OH uptake onto deliquesced NaCl particles by combining laser photolysis and laser-induced fluorescence. J. Phys. Chem. Lett., 2018, 9, 4115-4119.
[16] W. Wang #, J. Qi #, J. Zhou, B. Yuan*, Y. Peng, S. Wang, S. Yang, J. Williams, V. Sinha, and M. Shao: The improved comparative reactivity method (ICRM): measurements of OH reactivity under high-NOx conditions in ambient air, Atmos. Meas. Tech.,2021, 14, 2285-2298.
[17] S. Yang, B. Yuan*, Y. Peng, S. Huang, W. Chen, W. Hu , C. Pei , J. Zhou , D. Parrish, W. Wang, X. He, C. Cheng, X. B.Li, X. Yang, Y. Song, H. Wang, J. Qi, B. Wang, C. Wang, C. Wang, Z. Wang, T. Li, E. Zheng, S. Wang, C. Wu, M. Cai, C. Ye, W. Song, P. Cheng, D. Chen, X. Wang, Z. Zhang, X. Wang, J. Zheng, and M. Shao*: The formation and mitigation of nitrate pollution: comparison between urban and suburban environments, Atmos. Chem. Phys.,2022, 22, 4539-4556.
[18] N. Kohno, J. Zhou, J. Li, M. Takemura, N. Ono, Y. Sadanaga, Y. Nakashima, K. Sato, S. Kato, Y. Sakamoto, & Y. Kajii: Impacts of missing OH reactivity and aerosol uptake of HO2 radicals on tropospheric O3 production during the AQUAS-Kyoto summer campaign in 2018. Atmos. Environ., 2022, 281: 119130.
(二)論著
無
(三)專利
[1] 國家發明專利:周俊;郝怡忻;袁斌;邵敏;覃廣志:一種基于CAPS測氮氧化物的分析儀,2021-8-3,中國,ZL 202110526043.3, 已公開。
[2] 國家發明專利:周俊;吳豔峰;袁斌;邵敏;覃廣志;郝怡忻:在線測量臭氧生成速率和臭氧生成敏感性的系統, 2021-9-10,中國,ZL 202110671996.9,已公開。
[3] 實用新型專利:周俊;郝怡忻;袁斌;邵敏;覃廣志:一種基于CAPS測氮氧化物的分析儀,2021-12-7,中國,ZL202121029716.6, 已授權。
[4] 實用新型專利:周俊;吳豔峰;袁斌;邵敏;覃廣志;郝怡忻:在線測量臭氧生成速率和臭氧生成敏感性的系統,2021-12-31,中國,ZL202121347216.7,已授權。
研究生課程:《高級英語寫作》、《高等大氣環境化學》、《專業寫作與項目申報案例分析》、《大氣物理概論及監測應用》、《大氣物理學基礎》
含碳組分大氣環境行為及效應研究團隊,主要進行大氣污染物監測與二次污染物生成機制研究。
