20240149抗生素废水非均相高级氧化综合处理技术研发 15万元

000002345难降解工业废水高级氧化一体化深度处理及资源化技术研发徐海明80万元

20210929界面氧缺陷对Z型过渡金属硫化物异质结中单线态氧生成路径的影响机制2万元

武纺大科【2018】6号（2018综合奖补）暴露不同晶面3D分级结构BiOCl的可控合成及其光降解偶氮类染料研究 2万元

武纺大科〔2018〕6号暴露不同晶面3D分级结构BiOCl的可控合成及其光降解偶氮类染料研究2万元

B2019069分级结构BiOCl的晶面调控及其光催化降解偶氮类染料研究

主持省级项目2项，参与省部级项目11项，主持及参与横向项目20项，到账经费100万。

20240149 抗生素废水非均相高级氧化综合处理技术研发 15万元

000002345 难降解工业废水高级氧化一体化深度处理及资源化技术研发徐海明80万元

20210929 界面氧缺陷对Z型过渡金属硫化物异质结中单线态氧生成路径的影响机制2万元

武纺大科【2018】6号 暴露不同晶面3D分级结构BiOCl的可控合成及其光降解偶氮类染料研究 2万元

B2019069 分级结构BiOCl的晶面调控及其光催化降解偶氮类染料研究

长期从事环境污染物的净化和环境催化材料的可控制备，并取得了一定的研究成果。已在 Chemical Engineering Journal、 Separation and PurificationTechnology、 Catalysis Science & Technology 和 Applied Surface Science 等杂志上发表32 篇相关论文。

2013 

[1] Haiming Xu, Gang Chen*, Rencheng Jin, Jian Pei, Yu Wang and Dahong Chen.Hierarchical Bi2Se3 microrods: microwave-assistedsynthesis, growth mechanism and their related properties[J]. CrystEngComm, 2013, 15, 1618-1625.  

[2] Haiming Xu, Gang Chen,*Rencheng Jin, Dahong Chen, Jian Pei and Yu Wang. Electrical transportproperties of microwave-synthesized Bi2Se3-xTex nanosheet[J].CrystEngComm, 2013, 15, 5626-5632.

2014 

 [1] Haiming Xu, Gang Chen,*Rencheng Jin, Dahong Chen, Yu Wang and Jian Pei. Green synthesis of Bi2Se3hierarchical nanostructure and its electrochemical properties[J]. RSC Advances.2014, 4, 8922-8929. 

 [2] Haiming Xu, Gang Chen,* RenchengJin, Dahong Chen, Yu Wang, Jian Pei, Yongqiang Zhang, Chunshuang Yan and  Zhuangzhuang Qiu. Microwave-assistedsynthesis of Bi2Se3 ultrathin nanosheets and itselectrical conductivities[J]. CrystEngComm, 2014, 16, 3965-3970.

[3] Haiming Xu, Gang Chen*, RenchengJin, Dahong Chen, Yu Wang, Jian Pei, Chunshuang Yan, Yongqiang Zhang andZhuangzhuang Qiu. Enhancementof Seebeck coefficient in stacked Bi2Se3 nanoplates byenergy filtering[J]. European Journal of Inorganic Chemistry, 2014, 2625–2630.  

2017 

[1] 金兴智,李东亚,孙靖宇,徐海明*,夏东升*.蚕茧状BiOCl的合成及其可见光催化降解RhB性能[J]. 化学研究, 2017, 28(6):746-751.

2018 

[1] Yujie Cai, Dongya Li, Jingyu Sun, Mengdie Chen, Yirui Li, Zhongwei Zou,Hua Zhang, Haiming Xu*, Dongsheng Xia*. Synthesisof BiOCl nanosheets with oxygen vacancies for the improved photocatalyticproperties[J]. Applied Surface Science, 2018, 439:697-704.

[2] Jingyu Sun,Dongya Li, Yujie Cai, Zhongwei Zou, Hua Zhang, Jiayang Gong, Lei Sun, Haiming Xu*, Dongsheng Xia*. Controllable synthesis of highly active BiOCl withdiffrent content oxygen vacancies[J]. Journalof Materials Science: Materials in Electronics, 2018, 29:12241-12250.

[3] Jingyu Sun,Yujie Cai, Haiming Xu*, ZhongweiZou, Mingyue Hu, Xingzhi Jin, Lei Sun, Dongya Li, Dongsheng Xia*. Synthesis of porous BiOCl nanocubes with enhancedvisible light photocatalytic performance[J]. Chemical Physics Letters, 2018,711: 207-212.

[4] Jingyu Sun,Dongya Li, Yirui Li, Yujie Cai, Lei Sun, Xiang juan Yuan, Gang Cao, Haiming Xu*, Dongsheng Xia*. CMC/BiOCl 3D Hierarchical nanostructures withexposed {001} facets and its enhanced photocatalytic activity[J]. ChemistrySelect, 2018, 3:4463-4470.

[5] Jingyu Sun, Haiming Xu*, Dongya Li, Zhongwei Zou,Qiyuan Wu, Guoguan Liu, Jia Yang, Lei Sun, DongshengXia*. Ultrasound-assisted synthesisof a feathery-shaped BiOCl with abundant oxygen vacancies and efficientvisible-light photoactivity[J]. New Journal of Chemistry,2018, 42(24): 19571-19577.

[6] 李宜睿, 李东亚, 孙靖宇, 成功, 龙学军, 徐海明*, 夏东升*. 葡萄糖辅助合成形貌可控 BiOCl 及其可见光催化性能[J]. 化工进展, 2018, 37(11): 4419 4426.

[7] 巩嘉杨, 徐海明*, 李东亚，孙靖宇，夏东升*. Bi2O2CO3微/纳米片的合成及其光催化降解RhB [J]. 精细化工, 2018, 35(10):1738 1744.

[8] 张华,李东亚,蔡雨杰,孙磊,成功,徐海明*,夏东升*. 线团状C/BiOCl复合材料的合成及其光催化性能研究[J].当代化工, 2018, 47(6):1119-1123.

[9] 胡明玥,李东亚,孙靖宇,蔡雨杰,徐海明*,夏东升*. 玫瑰花状分级结构BiOCl的制备及其光降解罗丹明B的性能[J].化工环保, 2018, 38(4):419-424.

2019 

[1] Zhongwei Zou,Haiming Xu*, Dongya Li, Jingyu Sun, Dongsheng Xia*. Facile preparation andphotocatalytic activity of oxygen vacancy rich BiOCl with {001} exposedreactive facets[J]. Applied SurfaceScience, 2019, 463:1011-1018.

[2] Zhuo Zhou, Haiming Xu*, Dongya Li, Zhongwei Zou, Dongsheng Xia*. Microwave-assisted synthesis of La(OH)3/BiOCln-n heterojunctions with high oxygen vacancies and its enhanced photocatalyticproperties[J]. Chemical Physics Letters,2019, 736: 136805.

[3] Xingqi Liu, Haiming Xu*, Dongya Li*, Zhongwei Zou, Dongsheng Xia*. Facile preparation of BiOCl/ZnO heterostructurewith oxygen-rich vacancies and its enhanced photocatalytic performance[J]. ChemistrySelect,2019, 4, 12245-12251.

[4] Guoguan Liu, Haiming Xu,* Dongya Li,* Zhongwei Zou,Qiang Li, Dongsheng Xia*. BiOCl/BiOBr Heterojunction with rich oxygen vacanciesinduced by ultraviolet and its enhanced photocatalytic performance[J]. European Journal of Inorganic Chemistry, 2019, 46, 4887-4893.

2020 

 [1] Weidong Hou, Chengming Deng, Haiming Xu,* Dongya Li, Zhongwei Zou, HuanXia, Dongsheng Xia.  n–p BiOCl@g-C3N4Heterostructure with Rich-oxygen Vacancies for Photodegradation ofCarbamazepine. ChemistrySelect, 2020, 5, 2767-2777.

[2] Weidong Hou,Jia Yang, Haiming Xu, * Dongya Li, *Zhongwei Zou and Dongsheng Xia*, Syntheses of Nymphaea-like BiOCl with oxygenvacancies for effectively remove tetracycline hydrochloride[J]. CrystEngComm, 2020, 22, 3956-3964.

[3] Weidong Hou, Haiming Xu, * Yujie Cai,Zhongwei Zou, Dongya Li*, Dongsheng Xia*. Precisely control interface OVsconcentration for enhance 0D/2D Bi2O2CO3/BiOClphotocatalytic performance[J]. Applied Surface Science, 2020,530:147218.

2021 

[1] Huan Xia,Hailan Qin, Yushan Zhang, Hang Yin, Qiang Li, Fei Pan, Dongsheng Xia*, DongyaLi, Haiming Xu*. Modulate 1O2by passivate oxygen vacancy to boosting the photocatalytic performance ofZ-scheme Mo2S3/BiOCl heterostructure[J]. Separation andPurification Technology, 2021,266: 118547.

[2] ZhongweiZou, Hailan Qin, Huan Xia, Dongsheng Xia*, Dongya Li, Haiming Xu*. Modulating Formation Rates of Active SpeciesPopulation by Optimizing Electron Transport Channels for Boosting PhotocatalyticActivity of Bi2S3/BiO1-xCl Heterojunction[J]. CatalysisScience & Technology, 2021,11: 4196–4207.

[3] HailanQin, Yushan Zhang, Shuaijun He, Zeyu Guan*, Yintao Shi, Xinyi Xie, DongshengXia*, Dongya Li, Haiming Xu*.Increasingthe migration and separation efficiencies of photogenerated carriers inCQDs/BiOCl through the point discharge effect[J]. Applied Surface Science, 2021, 562:150214.

2022 

[1] Hailan Qin, Jingyu Sun, Dongsheng Xia, Haiming Xu*, Qilin Yu, Yi Zheng, and Yintao Shi*.Boostingnonradical process in BiOI/BiOCl heterostructure by interface oxygen vacancies[J]. ChemicalEngineering Journal, 2022, 435:134847.

[2] Chengming Deng, Haiming Xu*, Hailan Qin, Dongsheng Xia*, Dongya Li, Qilin Yu, Dahong Chen, Yi Zhengand Yujia Wang. Improving separation efficiency of photo-induced carriers in Bi2S3/BiOClheterostructure by the cooperative of oxygen vacancies and interfacial electricfield[J]. NewJournal of Chemistry,2022, 46, 9195-9206.

2023 

[1] Min Liu, Hailan Qin, Haiming Xu*, Zhongwei Zou, Chengming Deng, DongshengXia, Qilin Yu, Yi Zheng, Dahong Chen. Confineactivation peroxymonosulfate by surface oxygen vacancies of BiO1-xCl to boost its utilization rate[J].Separation and Purification Technology,2023, 307: 122711.

2024 

[1]XinhaiLi, Ruixia Jin, Min Liu, Haiming Xu*,Xiaoman Yu, Xinyi Xie. 3D axial channels and interfacial oxygen vacanciescooperate for enhancing photo-Fenton performance of ZnO/BiOCl microsphere[J]. Surfaces andInterfaces,2024, 44: 103656.

[2] Ruixia Jin,Xiaoman Yu, Haiming Xu*, Huan Xia,Quanpeng Zhao, Huimei Tian. Enhancing carrier transport efficiency of Bi2Se3/BiOClby the coupling of interface/thermal electric field[J]. Separation and Purification Technology, 2024, 345:127421.

[3] MinLiu, Hailan Qin, Haiming Xu*, Yi Zhen. Boostingcarriers transfer efficiency by 3D vector channels for amelioratingphotosynthesis H2O2[J]. Separation and Purification Technology, 2025, 355：129785.

[4] Xiaoman Yu,Menglin Liu, Haiming Xu*, Jian Xu,Jiarui Yi. Improving adsorption and purification performance of Bi2WO6/BiOClby oxygen vacancies[J]. EnvironmentalPollution,2024, 363: 125296.

授权专利

[1]徐海明,夏东升,李东亚,胡明玥,孙磊,袁向娟,曹刚,孙静宇,蔡雨杰.花状BiOCl光催化剂的制备方法及制得的BiOCl光催化剂和应用.授权时间：2019.2.19.专利号：ZL201710287367.X

[2] 徐海明,夏东升,李东亚,袁向娟,曹刚,孙磊,巩嘉杨,孙静宇,蔡雨杰.一种Bi2O2CO3光催化剂的制备方法及制得的Bi2O2CO3光催化剂和应用. 授权时间：2019.3.12.专利号：ZL201710287345.3

[3] 徐海明,夏东升,李东亚,夏欢,秦海兰. 光催化实验装置。授权时间：2022.04.05.专利号：ZL202130004445.8

[4] 徐海明;夏东升;李东亚;邹忠炜;夏欢;秦海兰;邓城铭. 一种微波合成氧空位BiOC1/Bi2S3催化剂及其制备方法、应用. 授权时间：2022.10.21.专利号：ZL201911264042.5.

[5] 徐海明;夏东升;李东亚;夏欢;邹忠炜;秦海兰;邓城铭. 具有氧/硫双空位的Z型BiOCl/MoS2催化剂的制备方法及其应用. 授权时间：2022.12.20. 专利号：ZL 201911306736.0

[6] 徐海明;夏东升;李东亚;邹忠炜; 夏欢;秦海兰;邓城铭.一种微波合成氧空位BiOCl/Bi2O3催化剂及其制备方法、应用. 授权时间：2023.3.21. 专利号：ZL 201911254225.9