[1] Kong,Ke¹³⁴;Cheng,Bo¹³;Liang,Jun⁴;Guo,Yong²;Wang,Ruihu¹⁴;. The aminated covalent organic polymers for reversible removal of concurrent perfluorooctane sulfonate and dichromate. Chemical Engineering Journal, 2022, 446 , .

[2] Kong, Ke;Cheng, Bo;Liang, Jun;Guo, Yong;Wang, Ruihu. The aminated covalent organic polymers for reversible removal of concurrent perfluorooctane sulfonate and dichromate. Chemical Engineering Journal, 2022, 446 , .

[3] Qiao Wu;Jun Liang;Li-Li Han;Yuan-Biao Huang;Rong Cao. A highly efficient atomic nickel catalyst for CO₂ electroreduction in acidic electrolyte. Chemical communications (Cambridge, England), 2023, 59 34, 5102-5105.

[4] Shao–Shuai Zhao;|Jun Liang;|Duan-Hui Si;|Min-Jie Mao;|Yuan–Biao Huang;|Rong Cao. Superheterojunction covalent organic frameworks: Supramolecular synergetic charge transfer for highly efficient photocatalytic CO₂ reduction. Applied Catalysis B: Environmental, 2023, 333 , 122782.

[5] Qiao Wu;Jun Liang;Li-Li Han;Yuan-Biao Huang;Rong Cao. A highly efficient atomic nickel catalyst for CO₂ electroreduction in acidic electrolyte. Chemical Communications, 2023, 59 34, 5102-5105.

[6] Ke Kong;Bo Cheng;Jun Liang;Yong Guo;Ruihu Wang. The aminated covalent organic polymers for reversible removal of concurrent perfluorooctane sulfonate and dichromate. Chemical Engineering Journal, 2022, 446 Part 4 Part4, 137343.

[7] Kong, Ke^{1, 3, 4}; Cheng, Bo^{1, 3}; Liang, Jun⁴; Guo, Yong²; Wang, Ruihu^{1, 4} . The Aminated Covalent Organic Polymers for Reversible Removal of Concurrent Perfluorooctane Sulfonate and Dichromate. SSRN, 2022, , .

[8] Qiu-Jin Wu^{1 ？ 2};Jun Liang^{1 ？ 3};Yuan-Biao Huang^{1 ？ 2};Rong Cao^{1 ？ 2 ？ 4};. Thermo-, Electro-, and Photocatalytic CO2 Conversion to Value- Added Products over Porous Metal/Covalent Organic Frameworks. ACCOUNTS OF CHEMICAL RESEARCH, 2022, , .

[9] 王瑞虎，孔科，梁均. 一种胺化共价机聚合物吸附剂及其制备方法和应用. , 2022, 河北工业大学, CN114870822A 2022.08.09.

[10] Wang, Honghai1, 2; Zhang, Yu1, 2; Yue, Wenda1, 2; Liang, Jun1, 2; Su, Weiyi1, 2 . Application of magnetic field (MF) as an effective method to improve the activity of immobilized Candida antarctica lipase B (CALB). Catalysis Science and Technology, 2022, Vol.12 No.17, 5315-5324.