Chunna Lv，Associate professor，Master tutor

office: chemistry north N107

mail: luchunna@htu.edu.cn 

Lv's Lab  https://jh28808136.jzfkw.net/col.jsp?id=104

Education：

2018.09-2022.07，Fudan University，Polymer chemistry and physics，Doctor

2014.09-2017.07，Henan Normal university，Polymer chemistry and physics，Master

2010.09-2014.07，Anyang Normal university，Chemical industry and pharmaceutical industry，Bachelor

Experience：

2022.07-Now，Henan Normal university，Lecturer (Associate professor)

2017.09-2018.05，Fudan university，Research assistant

Course：

Polymer chemistry experiment; Polymer chemistry; Design of topology

Research area：

Oxygen resistance; Photocatalysis; Radical polymerization; Polymer-induced self-assembly; polymer synthesis; Methodology of polymer synthesis

Research projects:

1. Research on Molecular Weight Distribution of Atom Transfer Radical Polymerization Regulated by External Field (Gas), Category A Doctoral Research Startup Fund, Principal Investigator 2024-06-17. 

Research results：

1. Activation and Deactivation of Ultrafast and Efficient Atom Transfer Radical Polymerization Driven by Oxygen.

Chunna Lv*, Yimei Ouyang, Jiahui Zou, Jiaojiao Shen, Mengjie Wang, Congcong Cui*. 2025, (submitted)

2. Aerobic atom transfer radical polymerization by using surfactant-gox: overcoming the challenges of hydrophobicity. 

Chunna Lv*, Mengyao Du, Congcong Cui, Guanglei Ma, Qingcong Wei, Chunhua Ma, Zhiguo Hu, Xinjuan Li*. 2025, (submitted)

3. Activation and deactivation of chain-transfer agent in controlled radical polymerization by oxygen initiation and regulation.

Chunna Lv; Ning Li; Yuxuan Du; Jiahua Li; Xiangcheng Pan*. Chinese Journal of Polymer Science, 2020, 38(11): 1178-1184.

4. Alkylboranes in conventional and controlled radical polymerization. 

Chunna Lv; Yuxuan Du; Xiangcheng Pan*.Journal of Polymer Science, 2020, 58(1): 14-19.

5. Oxygen-initiated and regulated controlled radical polymerization under ambient conditions. 

Chunna Lv; Congze He; Xiangcheng Pan*. Angew Chemie-International Edition, 2018, 57(30): 9430-9433.

6. Nanoparticle based on poly(ionic liquid) as an efficient solid immobilization catalyst for aldol reaction and multicomponent reaction in water. 

 Xinjuan Li*; Chunna Lv; Xianbin Jia; Maoqin Cheng; Kai Wang; Zhiguo Hu. ACS Applied Materials & Interfaces, 2017, 9(1): 827-835.

7. Atom transfer radical polymerization driven by near-infrared light with recyclable upconversion nanoparticles. 

Wenjie Zhang#; Jianhao He#; Chunna Lv; Qianyi Wang; Xinchang Pan; Krzysztof Matyjaszewski*; Xiangcheng Pan*. Macromolecules, 2020, 53(12): 4678-4684.

Patents:

1. Chunna LYU, Mengyao DU, Xiangcheng PAN, Guowei WANG, Zhiguo HU, Congcong CUI. METHOD FOR REALIZING LIVING/CONTROLLED FREE RADICAL POLYMERIZATION OFHYDROPHILIC AND/OR HYDROPHOBIC MONOMERS UNDER AIRCONDITIONS”ATTY. DOCKET. NO. US-2024-17294 (American patent）

2. 吕春娜,杜梦瑶,李新娟,王国伟,胡志国,崔聪聪. 一种可在空气条件下实现亲水和/或疏水单体“活性”/可控自由基聚合的方法[P]. 新乡市：2024115603414, 2024-11-04. (中国专利）

3. 潘翔城,吕春娜,贺聪泽. 在空气条件下实现“活性”/ 可控自由基聚合的方法[P]. 上海市：CN108976367B, 2020-07-03.

4. 潘翔城,吕春娜,贺聪泽. 一种可用于快速成型的成膜方法[P]. 上海市：CN108976368B, 2020-07-03.