（1）Zhao Haiqian, Tang Ziyu, He Mingqi, et al. Effect of oxygen functional groups on competitive adsorption of benzene and water on carbon materials: Density functional theory study. Science of The Total Environment, 2023 (SCI, top期刊)

（2）An Kaibo, Wang Zhonghua*, Yang Xue, Qu Zhibin, Sun Fei, Zhou Wei,Zhao Haiqian(通讯). Reasons of low formaldehyde adsorption capacity on activated carbon: Multi-scale simulation of dynamic interaction between pore size and functional groups. Journal of Environmental Chemical Engineering, 2022, (SCI)

（3）Lai Shiwei,Zhao Haiqian(通讯), Qu Zhibin, et al. Promotion of formaldehyde degradation by electro-Fenton: Controlling the distribution of OH and formaldehyde near cathode to increase the reaction probability. Chemosphere, 2022 (SCI, top期刊)

（4）Han Shuaishuai, Wang Zhonghua*, Pi Xinxin, Wu Chuanyan, Wang Xuejia, Wang Yong, Liu Xiaoyan,Zhao Haiqian(通讯). Promotion of tetracycline degradation by electro-Fenton: Controlling the reaction zone by N-doped modified activated carbon cathode. Journal of Cleaner Production, 2022 (SCI, top期刊)

（5）Liu Jiliang, Wang Zhonghua, Li Guangsheng, Jia Yongying, Ma Chuan,Zhao Haiqian(通讯), Liu Xiaoyan. Recognition of the effect of O2on the complexation absorption of NO in the FeII/Na2SO3system. Process Safety and Environmental Protection, 2022, (SCI)

（6）Wang Zhonghua, Qiao Hui, Yu Zhongchen, Yang Xue, Tang,Ziyu, Zhou Wei,Zhao Haiqian(通讯). Source analysis of benzene degradability in floating cathode electro-Fenton system based on COD removal ratio. Journal of Water Process Engineering, 2022, (SCI)

（7）Liang Gaojie, Liu Lijun*,Zhao Haiqian(通讯), et al. Study on droplet nucleation position and jumping on structured hydrophobic surface using the lattice Boltzmann method. Thermal Science, 2022, (SCI)

（8）Liu Lijun, Liang, Liang Gaojie*,Zhao Haiqian(通讯), Liu Xiaoyan, Effect of Surface Micromorphology and Hydrophobicity on Condensation Efficiency of Droplets Using the Lattice Boltzmann Method. Thermal Science,2022, (SCI)

（9）Yang Xue,Zhao Haiqian(通讯), Qu Zhibin, et al. The effect of oxygen-containing functional groups on formaldehyde adsorption in solution on carbon surface: A density functional theory study. Journal of Environmental Chemical Engineering, 2021, (SCI)

（10）Wang Xin, Wang Zhonghua, Yin Xinyuan,Zhao Haiqian(通讯), et al. Promotion of NO oxidation through H2O2thermal decomposition using a metal surface. Process Safety and Environmental Protection, 2021, (SCI)

（11）Zhao Haiqian, Liu Jingwen, Dong Ming, et al. High-temperature stable and hydrophobic boron-nitride-modified silica aerogels for heat insulation materials. Heat and Mass Transfer, 2021, (SCI)

（12）Zhao Haiqian, Dong Ming, Wang Zhonghua, et al. Roles of free radicals in NO oxidation by Fenton system and the enhancement on NO oxidation and H2O2utilization efficiency. Environmental Technology, 2020, (SCI)

（13）Wang Zhonghua,Zhao Haiqian(通讯), Qi Hanbing, et al. Free radical behaviours during methylene blue degradation in the Fe2+/H2O2system. Environmental Technology, 2019, (SCI)

（14）Wang Zhonghua,Zhao Haiqian(通讯), Dong Ming, et al. Main interference factors analysis of spectrophotometric method for OH quantitative detection in Fenton system based on the Russell mechanism and the modified method. Optik, 2019, (SCI)

（15）Zhao Haiqian, Wang Zhonghua, Gao Xingcun, et al. Optimization of NO oxidation by H2O2thermal decomposition at moderate temperatures. PloS one, 2018, (SCI)

（16）Zhao Haiqian, Gao Xingcun, Liu Chenghao,et al. Basic rules of NO oxidation by Fe2+/H2O2/AA directional decomposition system. The Canadian Journal of Chemical Engineering. 2017, (SCI)

（17）Zhao Haiqian, Lu Zhenyu, Liu Xiaoyan, et al. Heat transfer performance of thermal- washing process for crude oil pipeline. Thermal Science, 2018, (SCI)

（18）Zhao Haiqian, Gao Jihui, Zhou Wei, et al. Quantitative detection of hydroxyl radicals in Fenton system by UV-Vis spectrophotometry. Analytical Methods, 2015, (SCI)

（19）赵海谦,董明,汪怀远,刘立君,李栋,刘晓燕.不同尺寸反应器内H2O2热分解氧化NO特性与氧化产物分析.化工学报, 2018, (EI)

（20）赵海谦,刘城昊,周伟,王忠华,齐晗兵,高继慧. Fe(Ⅱ)/H2O2体系氧化NO主要活性物质及自由基无效消耗路径[J].化工学报, 2018, (EI)

（21）刘晓燕,姜卉,孟凡斌,鲁镇语,赵海谦(通讯).集输管道热水清蜡相变传热特性及影响因素.科学通报, 2018, (EI)

（22）赵海谦,高杏存,刘城昊,等.基于Russell机理分光光度法检测液相体系·OH浓度的改进.化工学报, 2017, (EI)

（23）赵海谦,高杏存,王忠华,高继慧. Fe2+/H2O2体系O2生成路径.化工学报, 2016,

（24）赵海谦,高继慧,周伟,王忠华,吴少华.抗坏血酸对Fe2+/H2O2系统氧化NO的促进作用.化工学报, 2015,(EI)

（25）赵海谦,高继慧,周伟,王忠华,吴少华. Fe2+/H2O2体系内各种自由基在氧化NO中的作用.化工学报, 2015, (EI)

（26）太阳能热利用原理与技术，东北林业大学出版社，主编，2014.05

（27）勘查设计注册石油天然气工程师资格考试专业基础考试复习指南（传热学部分），化学工业出版社，传热学部分主编，2006.05