[1] Liu Siyan, Yang Huitian, Yao Lei, Peng
Hongliang*, Huang Pengru, Lin Xiangcheng, Liu Lihua*, Zhang Huanzhi, Cai
Ping, Wen Xin, Zou Yongjin, Xiang Cuili, Xu Fen, Sun Lixian*, Kannan
Palanisamy, Ji Shan. Design of Fe and Cu bimetallic integration on N and F
co-doped porous carbon material for oxygen reduction reaction[J]. International
Journal of Hydrogen Energy, 2022, 47(12): 7751-7760.
[2] Peng Hongliang, Duan Diancheng,
Liu Siyan, Liu Jiaxi, Sun Lixian*, Huang Pengru, Shao Chunfeng, Zhang Kexiang,
Zhang Huanzhi, Xue Xiaogang, Xu Fen, Zou Yongjin, Liu Yalin, Tian Xinlong*,
Rosei Federico*. A graphene-like nanoribbon for efficient bifunctional
electrocatalysts[J]. Journal of Materials Chemistry A, 2021, 9(47):
26688-26697.
[3] Ma Jiaojun, Duan Diancheng, Gao Wei, Hu
Fang, Liu Siyan, Su Wei, Peng Hongliang*, Zhang Kexiang, Xu Fen, Sun
Lixian*. A Novel Fe and Cu Bimetallic Mixed Porous Carbon Material for Oxygen
Reduction[J]. Electrocatalysis, 2021, 12(4): 362-371.
[4] Peng Hongliang, Duan Diancheng,
Tan Xiyou, Hu Fang, Ma Jiaojun, Zhang Kexiang, Xu Fen, Li Bin, Sun Lixian. A
One‐Pot Method to
Synthesize a Co‐Based Graphene‐Like Structure Doped Carbon Material for the Oxygen Reduction
Reaction[J].ChemElectroChem, 2020, 7(1): 131-138.
[5] Wang Yangyang, Duan Diancheng, Ma
Jiaojun, Gao Wei, Peng Hongliang*, Huang Pengru, Lin Xiangcheng, Xu Fen,
Sun Lixian*. Waste wine mash-derived doped carbon materials as an efficient
electrocatalyst for oxygen reduction reaction[J]. International Journal of
Hydrogen Energy, 2019, 44(60): 31949-31959.
[6] Duan Diancheng, Hu Fang, Ma Jiaojun, Peng
Hongliang*, Zhang Kexiang, Huang Pengru, Chu Hailiang, Lin Xiangcheng, Qiu
Shujun, Wei Siyue, Xu Fen, Sun Lixian. A facile one-pot method to prepare
nitrogen and fluorine co-doped three-dimensional graphene-like materials for
supercapacitors[J]. Journal of Materials Science-Materials in Electronics,
2019, 30(21): 19505-19512.
[7] Peng Hongliang*, Huang Pengru,
Yi Pinggui, Xu Fen, Sun Lixian*. Theoretical studies of π-electron
delocalization and localization on intramolecular proton transfer in the ground
state[J]. J. Mol. Struct., 2018, 1154: 590-595.
[8] 熊子昂, 彭洪亮*, 向华, 宋永芳, 曾晓苑. 水氢燃料电池控制策略[J].乐动网页版学报, 2018, 38(02): 144-149.
[9] Peng Hongliang, Liu Fangfang,
Qiao Xiaochang, Xiong Ziang, Li Xiuhua, Shu Ting, Liao Shijun. Nitrogen and
Fluorine co-doped carbon catalyst with high oxygen reduction performance,
prepared by pyrolyzing a mixture of melamine and PTFE[J]. Electrochimica Acta,
2015, 182: 963-970.
[10] Peng Hongliang, Liu Fangfang,
Liu Xiaojun, Liao Shijun, You Chenghang, Tian Xinlong, Nan Haoxiong, Luo Fan,
Song Huiyu, Fu Zhiyong, Huang Peiyan. Effect of Transition Metals on the
Structure and Performance of the Doped Carbon Catalysts Derived From
Polyaniline and Melamine for ORR Application[J]. Acs Catalysis, 2014, 4(10):
3797-3805.
[11] Peng Hongliang, Hou Sanying,
Dang Dai, Zhang Bingqing, Liu Fangfang, Zheng Ruiping, Luo Fan, Song Huiyu,
Huang Peiyan, Liao Shijun. Ultra-high-performance doped carbon catalyst derived
from o-phenylenediamine and the probable roles of Fe and melamine[J]. Applied
Catalysis B-Environmental, 2014, 158-159(0926-3373): 60-69.
[12] Peng Hongliang, Mo Zaiyong,
Liao Shijun, Liang Huagen, Yang Lijun, Luo Fan, Song Huiyu, Zhong Yiliang,
Zhang Bingqing. High Performance Fe- and N- Doped Carbon Catalyst with Graphene
Structure for Oxygen Reduction [J]. Scientific Reports, 2013, 3: 1765.