
教育背景与工作经历
个人简介
陈军,博士,副教授,上海理工大学能源与动力工程学院热能动力工程系。2011年博士毕业于爱尔兰国立科克大学(University College Cork)化学系大气化学研究中心,长期从事光学光谱测量技术的开发与应用。
所属实验室:颗粒多相流智能测量与计算研究中心、机械工业多相流动测试技术重点实验室。
电子邮箱:j.chen@usst.edu.cn
教育背景
博士(2006–2011):爱尔兰国立科克大学(University College Cork),化学系,大气化学
硕士(2004–2006):上海理工大学,动力机械及工程
学士(1998–2002):浙江大学,光电信息工程
研究方向
非相干宽带腔增强吸收光谱(IBBCEAS)——痕量气体(HONO、NO₂、BTX等)实时检测
光腔衰荡光谱(CRDS)+ 激光诱导炽光法(LII)——碳烟颗粒测量
差分光学吸收光谱(DOAS)——烟气SO₂及烟尘监测
离轴积分腔吸收光谱(OA-ICAS)——低浓度气体测量
应用领域:大气环境监测、燃烧排放测量、气溶胶消光特性、烟气超低排放监测
代表性研究成果
论文发表
英文期刊论文
[1] Chen Z, Wang M, Venables D S, Chen J*. Measurement of gas phase naphthalene with deep-UV broadband cavity-enhanced and integrated absorption spectroscopy[J]. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 2026, 359: 127964.
[2] Wang M, Liu W, Ding X, Liu T, Zhou W, Lou S, Venables D S, Varma R, Huang C, Chen J*. Rapid and high-precision cavity-enhanced spectroscopic measurement of HONO and NO₂: application to emissions from heavy-duty diesel vehicles in chassis dynamometer tests and in mobile monitoring[J]. Talanta, 2025, 285: 127386.
[3] Yang Z, Wang M, Venables D S, Chen J*. Integrated absorption spectroscopic measurement of 2-nitrophenol and naphthalene[J]. International Journal of Molecular Sciences, 2025, 26: 9904.
[4] Zhu W, Chen J, et al. Comparative analysis of methods for seasonal particulate organic nitrate estimation in urban areas[J]. npj Climate and Atmospheric Science, 2025.
[5] Zhu W, Chen J, et al. GC×GC-based fingerprint identification for SOA from naphthalene and α-pinene oxidation[J]. Journal of Chromatography A, 2025, 1741.
[6] Fan M, Yang H, Chen J. Characterization of multi-pass enhanced Raman spectroscopy for gaseous measurement[J]. Analytica, 2025, 6(2): 13.
[7] Ding X, Chen J, et al. Unraveling reactive nitrogen emissions in heavy-duty diesel vehicles across evolving standards and cheating tactics[J]. Environmental Science & Technology, 2024, 58(18): 7887–7897.
[8] Zhu W, Chen J, et al. The role of seasonal characteristics in addressing scattering species for improved visibility in Shanghai[J]. Science of the Total Environment, 2024, 921: 171138.
[9] Wang M, Lou S, Hu W, Wang H, Wang X, Fan F, Varma R, Venables D S, Chen J*. Intercomparison of NO₃ under humid conditions with open-path and extractive IBBCEAS in an atmospheric reaction chamber[J]. Remote Sensing, 2023, 15(3): 739.
[10] Ding X, Chen J, et al. Direct observation of HONO emissions from real-world residential natural gas heating in China[J]. Environmental Science & Technology, 2023, 57(11): 4537–4547.
[11] Wang M, Varma R, Venables D S, Zhou W, Chen J*. A demonstration of broadband cavity-enhanced absorption spectroscopy at deep-ultraviolet wavelengths: application to sensitive real-time detection of the aromatic pollutants benzene, toluene, and xylene[J]. Analytical Chemistry, 2022, 94(18): 7031–7038.
[12] Yang Z, Wang M, Hou Y, Liu Y, Chandran S, Varma R, Lou S, Chen J*. Intercomparison of ambient nitrous acid measurements in a Shanghai urban site[J]. Atmosphere, 2022, 13(2): 329.
[13] Wang M, et al. A broadband cavity enhanced spectrometer for atmospheric aerosol light extinction measurements[J]. Aerosol Science and Engineering, 2022.
[14] Zhang J, Chen J, Wang M, Su M, Zhou W, Varma R, Lou S. Intercomparison of photoacoustic and cavity attenuated phase shift instruments: laboratory calibration and field measurements[J]. Geoscientific Instrumentation, Methods and Data Systems, 2021, 10: 245–255.
[15] Liu D, Chen J, et al. Absorption products and SO₂ selectivity during simultaneous absorption of SO₂ and NOₓ in a bubbling column under high pressure[J]. Energy & Fuels, 2020, 34(7): 8372–8381.
[16] Liu D, Chen J, et al. Measurement and modeling of nitrogen oxides absorption under high pressure for oxy-fuel combustion[J]. International Journal of Greenhouse Gas Control, 2020, 100: 103107.
[17] Chen J, et al. An open-path dual-beam laser spectrometer for path-integrated urban NO₂ sensing[J]. Sensors and Actuators A: Physical, 2020, 315: 112208.
[18] Chen J, Fullam D P, Yu S, Boge O, Le P H, Herrmann H, Venables D S. Improving the accuracy and precision of broadband optical cavity measurements[J]. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 2019, 218: 178–183.
[19] Suhail K, George M, Chandran S, Varma R, Venables D S, Wang M, Chen J. Open path incoherent broadband cavity-enhanced measurements of NO₃ radical and aerosol extinction in the North China Plain[J]. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 2019, 208: 85–94.
[20] Prakash N, Ramachandran A, Varma R, Chen J, Mazzoleni C, Du K. Near-infrared incoherent broadband cavity enhanced absorption spectroscopy (NIR-IBBCEAS) for detection and quantification of natural gas components[J]. Analyst, 2018, 143: 3284–3291.
[21] Wang H, Chen J, Lu K. Development of a portable cavity-enhanced absorption spectrometer for the measurement of ambient NO₃ and N₂O₅: experimental setup, lab characterizations, and field applications in a polluted urban environment[J]. Atmospheric Measurement Techniques, 2017, 10: 1465–1479.
[22] Chen J, Wenger J C, Venables D S. Near-ultraviolet absorption cross sections of nitrophenols and their potential influence on tropospheric oxidation capacity[J]. The Journal of Physical Chemistry A, 2011, 115(44): 12235–12242.
[23] Chen J, Venables D S. A broadband optical cavity spectrometer for measuring weak near-ultraviolet absorption spectra of gases[J]. Atmospheric Measurement Techniques, 2011, 4(3): 425–436.
中文期刊论文
[24] 夏文筱, 陈军, 等. 毛细管中气液两相流的影响因素研究:以气态亚硝酸监测为例[J]. 工程热物理学报, 2025.
[25] 张钰, 陈军, 等. 基于表面增强拉曼光谱测量抗磷脂酶A2受体抗体[J]. 量子电子学报, 2025.
[26] 朱雯斐, 陈军, 等. 《科技论文阅读与写作》课程教学实践探索[J]. 科技导刊, 2024.
[27] 刘文洋, 陈军, 等. 腔增强吸收光谱测量大气亚硝酸的车载走航观测应用[J]. 环境科学学报, 2023.
[28] 张家洛, 陈军, 等. 光腔光谱方法气溶胶消光系数比对测量[J]. 计量学报, 2022, 43(5): 675–681.
[29] 俞景尧, 陈军, 等. 紫外可见宽带腔增强气溶胶消光结合黑碳仪测量光学性质的闭合验证[J]. 大气环境光学学报.
[30] 陈军, 等. 苯、甲苯和二甲苯紫外差分吸收光谱解析模拟[J]. 激光与光电子学进展, 2020, 57(23): 233004.
[31] 沈翔森, 陈军, 等. 基于LIF方法对柴油车尾气羟基总反应性测量[J]. 大气与环境光学学报, 2020, 15(4): 269–278.
[32] 杜盈盈, 陈军, 等.(大气气溶胶光学性质)[J]. 环境科学, 2020.
[33] 基于紫外差分吸收光谱的烟气SO₂及烟尘监测[J]. 环境工程学报, 2020.
[34] 王孟, 陈军, 等. 双色激光诱导炽光法结合光腔衰荡光谱技术测量碳烟颗粒[J]. 中国激光, 2019.
[35] 光学原位法探针测量超低减排烟气[J]. 北京航空航天大学学报.
[36] 杨荟楠, 陈军, 等. 基于离轴积分腔吸收光谱技术的低浓度水蒸气测量[J]. 光学学报, 2018, 38(2): 0212005.
[37] 李明智, 陈军, 等. 上海中心城区二氧化氮在线测量比对研究[J]. 环境科学学报, 2018.
[38] 刘瑜存, 陈军, 等. 基于高质量分辨率质谱仪研究上海城区秋季大气亚微米级颗粒物化学特性[J]. 环境科学学报, 2018.
[39] 王海潮, 陈军, 陆克定. 对流层大气NO₃与N₂O₅的实地测量[J]. 化学进展, 2015.(综述)
[40] 杨荟楠, 王琴, 杨正鹏, 陈军, 蔡小舒. 新型在线光谱测量方法在环境排放中的应用[J]. 科技导报, 2015, 33(6).
[41] 尹鹏飞, 陈军, 杨荟楠, 刘丽丽, 蔡小舒. 长光程消光在线测量油雾过滤器的过滤效率[J]. 动力工程学报, 2015, 35(2).
会议论文
[42] Zhang Y, Chen J, et al. Long-path differential optical absorption spectroscopy for atmospheric monitoring[C]. PIERS 2017 Proceedings, 2017.
[43] Hou Y, Chen J, et al. Study of nephelometer correction factors in winter Shanghai[C]. PIERS 2016 Proceedings, Shanghai, 2016.
[44] Wang M, Varma R, Venables D S, Zhou W, Chen J. Measurement of nitrous acid in CAREBeijing by IBBCEAS[C]. EGU General Assembly, 2015.
[45] Hou Y, Chen J, et al. (Poster, APT2015) —— 获最佳海报奖.
[46] Hou Y, Chen J, et al. (SPIE Proceedings, 2014).
荣誉与奖励
上海市技术发明二等奖
中国颗粒学会科学技术进步一等奖
主讲课程
招生
招收硕士研究生,联合培养博士研究生。
授课
承担本科课程3门、研究生课程1门。





