[1].   Weiwei Wang, Chao Shan, Weiming Zhang, Lu Lv*, Guangze Nie, Bingcai Pan, In-situ surface chlorination strategy enables highly efficient metal-support catalyst toward chlorophenols pollutants degradation, Sep. Purif. Technol., 2023, 317, 123822.

[2].   Guangze Nie, Xiangjun Liu, Xiaohan Li, Chaoyu Meng, Weiwei Wang,* Dong Zou,* Efficient phosphate removal and recovery by using nanosized La(III) oxides anchored on aminated biomass waste, Sep. Purif. Technol., 2023, 305, 122513.

[3].   Weiwei Wang,^# Xueting Pan,^# Hailong Yang, Hui Wang, Qingyuan Wu, Lirong Zheng, Bolong Xu, Xinghua Shi, and Huiyu Liu*, Bioactive metal–organic frameworks with specific metal–nitrogen (M–N) active sites for efficient sonodynamic tumor therapy, ACS Nano, 2021,15, 12, 20003-20012.

[4].   Weiwei Wang,^# Bolong Xu,^# Xueting Pan, Junfeng Zhang, and Huiyu Liu,* Solvent-dependent adsorption-driven mechanism for MOFs–based yolk-shell nanostructures, Angew. Chem. Int. Ed., 2021, 60: 2-9.

[5].   Xueting Pan,^# Weiwei Wang,^# Zhijun Huang, Shuang Liu,  Juan Guo,  Fengrong Zhang,  Hongjun Yuan,  Xin Li,  Fengyong Liu,* and Huiyu Liu,* MOF–derived double-layer hollow nanoparticles with oxygen generation ability for multimodal imaging–guided sonodynamic therapy, Angew. Chem. Int. Ed., 2020, 59(32): 13557-13561.

[6].   Bolong Xu,^# Yan Cui,^# Weiwei Wang,^# Shanshan Li, Chengliang Lyu, Shuang Wang, Weier Bao, Hongyu Wang, Meng Qin, Zhen Liu, Wei Wei,* and Huiyu Liu,* Immunomodulation-enhanced nanozyme-based tumor catalytic therapy, Adv. Mater., 2020, 32(33): 2003563.

[7].   Bolong Xu,^# Hui Wang,^# Weiwei Wang,^# Lizeng Gao, Shanshan Li, Xueting Pan, Hongyu Wang, Hailong Yang, Xiangqin Meng, Qiuwen Wu, Lirong Zheng, Shenming Chen, Xinghua Shi, Kelong Fan,* Xiyun Yan,* and Huiyu Liu,* A single-atom nanozyme for wound antibacterial applications. Angew. Chem. Int. Ed., 2019, 58(15): 4911-4916.

[8].   Weiwei Wang, Dan Zhu, Jie Luo, Junwu Zhu, and Xiaoheng Liu,* Self-assembly of (NH₄)_0.3TiO_1.1F_2.1 crystal by means of the dinitrogen fixation: as precursor of N-doped TiO₂ nanosheets, J. Nanopart. Res., 2016, 18: 1-13.

[9].   Weiwei Wang, Dan Zhu, Zhi Shen, Jin Peng, Jie Luo, and Xiaoheng Liu,* One-pot hydrothermal route to synthesize the hollow Bi-doped anatase TiO₂ thin sheets with prior facet exposed for enhanced visible-light-driven photocatalystic activity, Ind. Eng. Chem. Res., 2016, 55 (22): 6373–6383.

[10].         Fengrong Zhang, Xianlin Han, Yanyan Hu, Shunhao Wang, Shuang Liu, Xueting Pan, Hongyu Wang, Junjie Ma, Weiwei Wang, Shanshan Li, Qingyuan Wu, Heyun Shen, Xiaoling Yu, Qipeng Yuan, and Huiyu Liu*, Interventional Photothermal Therapy Enhanced Brachytherapy: A New Strategy to Fight Deep Pancreatic Cancer. Advanced Science, 2019, 6(5), 1801507.

[11].         Junjie Ma, Pengju Li, Weiwei Wang, Shunhao Wang, Xueting Pan, Fengrong Zhang, Shanshan Li, Shuang Liu, Hongyu Wang, Gan Gao, Bolong Xu, Qipeng Yuan, Heyun Shen, and Huiyu Liu, Biodegradable poly(amino acid)-gold-magnetic complex with efficient endocytosis for multimodal imaging-guided chemo-photothermal therapy. ACS Nano, 2018, 12 (9), pp 9022–9032.

[12].         Kai Gu, Xueting Pan, Weiwei Wang, Junjie Ma, Yun Sun, Hailong Yang, Heyun Shen, Zhijun Huang*, Huiyu Liu*, In Situ Growth of Pd Nanosheets on g-C3N4 Nanosheets with Well-contacted Interface and Enhanced Catalytic Performance for 4-nitrophenol Reduction, Small, 2018, 1801812.

[13].         Xueting Pan, Hongyu Wang, Shunhao Wang, Xiao Sun, Lingjuan Wang, Weiwei Wang, Heyun Shen & Huiyu Liu*, Sonodynamic therapy (SDT): a novel strategy for cancer nanotheranostics. Science China Life Sciences, 2018: 1-12.

[14].         Yanyan Hu, Chongwei Chi, Shunhao Wang, Lingxiong Wang, Ping Liang, Fangyi Liu, Wenting Shang, Weiwei Wang, Fengrong Zhang, Shanshan Li, Heyun Shen, Xiaoling Yu*, Huiyu Liu*, and Jie Tian*, A comparative study of clinical intervention and interventional photothermal therapy for pancreatic cancer, Advanced Materials, 2017, 1700448.

[15].         Dan Zhu, Weiwei Wang, Shenming Chen, and Xiaoheng Liu, Time-dependent evolution of the dichloromethane-mediated Bi₂MoO₆/BiOCl heterojunction for enhanced electrochemical performance, Journal of Solid State Electrochemistry, 2017, 21(10): 2955-2964.

[16].         Dan Zhu, Weiwei Wang, Junwu Zhu, Shenming Chen, and Xiaoheng Liu, Enhanced electrochemical properties of pseudocapacitor with Bi_3.64Mo_0.36O_6.55 NPs as electrodes, Journal of Solid State Electrochemistry, 2017, 21(2): 403-408.

Book:

[1]     Paul O’Brien and P. John Thomas, A Specialist Periodical Report, Nanoscience, Volume 3, 2015. Xiaxi Yao, Weiwei Wang, Wei Chen, Xiaoheng Liu*, Chapter 7: Several recent designs or choices of nanomaterials for photocatalysis: Ag/AgCl composite, silicate and Bi₂MoO₆.

Patents:

[1].   王伟伟，陆淳等，一种自动混匀超声波催化反应装置，实用新型专利，202321022106.2 

[2].   王伟伟，聂广泽等，置换-吸附型树脂基复合吸附剂、制备方法及其应用，发明专利，202310366367.4

[3].   聂广泽，王伟伟等，基于配体修饰的树脂基复合破络剂、制备方法及其应用，发明专利，202310367351.5

[4].   吕路，王伟伟等，一种用于半导体制程废水中H₂O₂去除的磁性纳米酶制备方法，发明专利，2022-09-07，中国，202211097054.5

[5].   吕路，王伟伟等，基于硅酸盐溶解动力学制备硅酸锰纳米酶的方法及应用，发明专利，2021-09-01，中国，202111020257.X

[6].   刘惠玉，王伟伟等，一种基于摇铃形结构模板制备双层中空纳米硅酸锰的方法，发明专利，2017-11-7，中国，201711134136.1

[7].   刘惠玉，王伟伟等， 一种基于吸附驱动力可控制备核壳结构纳米复合物的方法，发明专利，2017-11-7，中国，201711134098.X

[8].   王伟伟，刘孝恒等，一种基于化学固氮技术合成非化学计量的氟氧钛酸铵粉体的方法，发明专利，2017-06-27，中国，201510719081.5

[9] 刘孝恒，王伟伟等，一种液相剥离天然黄铁矿制备纳米超细粉，发明专利，2016-8-9，中国，201610649514.9