Production of P, N Co-doped Graphene-Based Materials by a Solution Process and Their Electrocatalytic Performance for Oxygen Reduction Reaction

Jang Dawoon; Lee Seungjun; Kim Sujin; Choi Kwangrok; Park Sunghee; Oh Junghoon; Park Sungjin

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Production of P, N Co-doped Graphene-Based Materials by a Solution Process and Their Electrocatalytic Performance for Oxygen Reduction Reaction

机译：通过溶液方法生产P，N掺杂石墨烯基材料及其电催化性能进行氧还原反应

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Graphene-based materials are promising as metal-free, cost-effective electrocatalysts owing to their feasibility for mass production and excellent electrochemical properties. Recently, heteroatom co-doping of graphene networks has been identified as a promising route to produce efficient electrocatalysts for the oxygen reduction reaction (ORR). In this study, we have synthesized a P, N co-doped graphene-based material (N-P-rG-O) using a two-step solution process in which graphene oxide is sequentially reacted with phytic acid and ammonium hydroxide in water. The N-P-rG-O catalyst exhibits an onset potential for the ORR in basic medium (0.1M KOH) of 0.89V (vs. the reversible hydrogen electrode), following a four-electron pathway and showing excellent stability against methanol poisoning in durability tests.

机译：由于其对批量生产和优异的电化学性质的可行性，石墨烯基材料具有无金属，经济高效的电催化剂。最近，石墨烯网络的共掺杂已经被鉴定为有望的途径，以生产用于氧还原反应的有效电催化剂（ORR）。在该研究中，我们使用使用两步溶液方法合成P，N共掺杂的石墨烯基材料（N-P-RG-O），其中将氧化烯氧化物与植酸和氢氧化铵在水中依次反应。在四电子途径之后，NP-RG-O催化剂的碱基培养基（0.1M KOH）中的碱基（0.1m KOH）的发病势率表现出0.89V（与可逆氢电极），并在耐久性测试中呈现出优异的甲醇中毒稳定性。

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《Current Forestry Reports》 |2018年第1期|共6页
作者
Jang Dawoon; Lee Seungjun; Kim Sujin; Choi Kwangrok; Park Sunghee; Oh Junghoon; Park Sungjin;
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Inha Univ Dept Chem Chem Engn Green Energy Battery Lab WCSL World Class Smart Lab 100 Inha Ro Incheon 22212 South Korea;

Inha Univ Dept Chem Chem Engn Green Energy Battery Lab WCSL World Class Smart Lab 100 Inha Ro Incheon 22212 South Korea;

Inha Univ Dept Chem Chem Engn Green Energy Battery Lab WCSL World Class Smart Lab 100 Inha Ro Incheon 22212 South Korea;

Inha Univ Dept Chem Chem Engn Green Energy Battery Lab WCSL World Class Smart Lab 100 Inha Ro Incheon 22212 South Korea;

Inha Univ Dept Chem Chem Engn Green Energy Battery Lab WCSL World Class Smart Lab 100 Inha Ro Incheon 22212 South Korea;

Inha Univ Dept Chem Chem Engn Green Energy Battery Lab WCSL World Class Smart Lab 100 Inha Ro Incheon 22212 South Korea;

Inha Univ Dept Chem Chem Engn Green Energy Battery Lab WCSL World Class Smart Lab 100 Inha Ro Incheon 22212 South Korea;

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正文语种 eng
中图分类林业;
关键词
Doping; Graphene; Heterogeneous Catalysis; Oxygen Reduction Reaction;

机译：掺杂;石墨烯;异质催化;氧还原反应;

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专利

1. Production of P, N Co-doped Graphene-Based Materials by a Solution Process and Their Electrocatalytic Performance for Oxygen Reduction Reaction [J] . Jang Dawoon, Lee Seungjun, Kim Sujin, Current Forestry Reports . 2018,第1期

机译：通过溶液方法生产P，N掺杂石墨烯基材料及其电催化性能进行氧还原反应
2. Ni-O 4 species anchored on N-doped graphene-based materials as molecular entities and electrocatalytic performances for oxygen reduction reaction [J] . Dawoon Jang, Seungjun Lee, Yunseok Shin, Solid state sciences . 2017,第期

机译：NI-O 4 锚定的物种在 n - 掺杂的基于石墨烯的材料作为分子实体和电催化性能进行氧还原反应
3. Enhanced electrocatalytic performances of alpha-Fe2O3 pseudo-nanocubes for oxygen reduction reaction in alkaline solution with conductive coating [J] . Fu Yue, Wang Jin, Yu Hai-Yang, International journal of hydrogen energy . 2017,第32期

机译：具有导电涂层的碱性溶液中增强的α-Fe2O3拟纳米颗粒对氧还原反应的电催化性能
4. Electrocatalytic Performance of Reduced Graphene Oxide Based Materials for Oxygen Reduction Reaction (ORR) [C] . Siham Idrissi, Zineb Edfouf, Omar Benabdallah, International Renewable and Sustainable Energy Conference . 2017

机译：还原型氧化石墨烯基材料对氧还原反应（ORR）的电催化性能
5. A theoretical study of the electrocatalytic oxygen reduction reaction and related reactions on platinum group metals. [D] . Hyman, Matthew P. 2007

机译：铂族金属电催化氧还原反应及相关反应的理论研究。
6. Fluorine-doped graphene with an outstanding electrocatalytic performance for efficient oxygen reduction reaction in alkaline solution [O] . Jiahao Guo, Jianguo Zhang, Hanqing Zhao, 2018

机译：氟掺杂石墨烯具有出色的电催化性能可在碱性溶液中有效地进行氧还原反应
7. Quantifying Graphitic Edge Exposure in Graphene-Based Materials and Its Role in Oxygen Reduction Reactions [O] . -1

机译：量化基于石墨烯的材料中的石墨边缘暴露及其在氧还原反应中的作用

Production of P, N Co-doped Graphene-Based Materials by a Solution Process and Their Electrocatalytic Performance for Oxygen Reduction Reaction

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