B-site doping effects of NdBa0.75Ca0.25Co2O5+delta double perovskite catalysts for oxygen evolution and reduction reactions

Kim Nam-In; Cho Sung-Hwa; Park Se Hwan; Lee Young Joo; Afzal Rana Arslan; Yoo Jeseung; Seo Young-Soo; Lee Yun Jung; Park Jun-Young

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B-site doping effects of NdBa0.75Ca0.25Co2O5+delta double perovskite catalysts for oxygen evolution and reduction reactions

机译：NDBA0.75CA0.25CO2O5 + Delta双钙钛矿催化剂的B-位点掺杂效应，用于氧气进化和还原反应

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As bifunctional electrocatalysts for the oxygen reduction reaction (ORR) and oxygen evolution reaction (OER), we introduce an economical, particularly active, stable, and completely noble-metal-free catalyst based on CaO-doped NdBaCo2O5+delta with the aim of exploiting its high catalytic activity for the oxygen electrode. Further, the electrochemical performances of the NdBa0.75Ca0.25Co2O5+delta catalyst are improved by doping transition-metal oxides (Fe2+, Ni2+, Cu2+, and Mn2+) into the B-sites of double perovskite oxides, facilitating the movement of electrons and oxygen-ions through oxygen vacancies. Among these, NdBa0.75Ca0.25Co1.5Fe0.5O5+delta (NBCCFe) shows the highest electrocatalytic oxygen electrode activity for the OER and ORR, and NBCCFe thus is hybridized with nitrogen-reduced graphene oxide (N-rGO) to further improve its catalytic activity with excellent durability. Hybridization of NBCCFe with N-rGO further boosts bifunctional oxygen electrode activity (0.761 V) with better durability, which surpasses those of Pt/C (0.815 V) and Ir/C (0.768 V) catalysts. A rechargeable lithium-air battery assembled with the NBCCFe/N-rGO catalyst exhibits remarkably improved discharge capacity, reduced charge overpotential and an extended cycle life, corroborating the excellent bifunctional catalytic activity of NBCCFe/N-rGO. The NBCCFe/N-rGO catalyst also displays the most improved polarization during both discharge and charge, further confirming the highest bifunctional catalytic activity of NBCCFe/N-rGO.

机译：作为对氧还原反应（ORR）和氧气进化反应（oer）的双官能电催化剂，我们引入了基于Cao-掺杂的NdBaco2O5 +三角洲的经济学，特别是活性，稳定的和完全贵金属 - 无金属催化剂，其目的是利用其对氧电极的高催化活性。此外，通过将过渡 - 金属氧化物（Fe2 +，Ni2 +，Cu 2 +，Cu 2 +和Mn2 +）掺杂到双钙钛矿氧化物的B位，促进电子和氧气的运动 - 通过氧气职位空缺。其中，NdBa0.75Ca0.25Co1.5Fe0.505 +δ（NBCCFE）显示了oer和Orr的最高电催化氧电极活性，并且Nbccfe因此与氮化氮的氧化石墨烯（n-rgo）杂交，以进一步改善其催化活性具有优异的耐久性。 NBCCFE与N-RGO的杂交进一步提高了双官能氧电极活性（0.761V），耐久性超过Pt / C（0.815V）和Ir / C（0.768V）催化剂的耐催化剂。与Nbccfe / N-Rgo催化剂组装的可充电锂空气电池表现出显着提高的放电容量，减少电荷过势和延长的循环寿命，证实了NbccFe / N-Rgo的优异双官能催化活性。 NBCCFE / N-RGO催化剂还显示出在放电和电荷期间最良好的极化，进一步证实了NbccFe / N-Rgo的最高双官能催化活性。

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《Journal of Materials Chemistry, A. Materials for energy and sustainability》 |2018年第36期|共12页
作者
Kim Nam-In; Cho Sung-Hwa; Park Se Hwan; Lee Young Joo; Afzal Rana Arslan; Yoo Jeseung; Seo Young-Soo; Lee Yun Jung; Park Jun-Young;
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Sejong Univ Dept Nanotechnol &

Adv Mat Engn HMC Seoul 05006 South Korea;

Sejong Univ Dept Nanotechnol &

Adv Mat Engn HMC Seoul 05006 South Korea;

Hanyang Univ Dept Energy Engn Seoul 04763 South Korea;

Hanyang Univ Dept Energy Engn Seoul 04763 South Korea;

Sejong Univ Dept Nanotechnol &

Adv Mat Engn HMC Seoul 05006 South Korea;

Sejong Univ Dept Nanotechnol &

Adv Mat Engn HMC Seoul 05006 South Korea;

Sejong Univ Dept Nanotechnol &

Adv Mat Engn HMC Seoul 05006 South Korea;

Hanyang Univ Dept Energy Engn Seoul 04763 South Korea;

Sejong Univ Dept Nanotechnol &

Adv Mat Engn HMC Seoul 05006 South Korea;

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1. B-site doping effects of NdBa0.75Ca0.25Co2O5+delta double perovskite catalysts for oxygen evolution and reduction reactions [J] . Kim Nam-In, Cho Sung-Hwa, Park Se Hwan, Journal of Materials Chemistry, A. Materials for energy and sustainability . 2018,第36期

机译：NDBA0.75CA0.25CO2O5 + Delta双钙钛矿催化剂的B-位点掺杂效应，用于氧气进化和还原反应
2. B-Site Cation Ordered Double Perovskites as Efficient and Stable Electrocatalysts for Oxygen Evolution Reaction [J] . Hainan Sun, Gao Chen, Yinlong Zhu, Chemistry: A European journal . 2017,第24期

机译：B型位阳离子有序双钙酸盐作为氧气进化反应的高效稳定的电催化剂
3. Lanthanide based double perovskites: Bifunctional catalysts for oxygen evolution/reduction reactions [J] . Kumar S., Singh M., Pal R., International journal of hydrogen energy . 2021,第33期

机译：基于镧系元素的双重钙质：用于氧气进化/还原反应的双官能催化剂
4. Developing Cobalt Doped Pr_(0.5)Ba_(0.5)MnO_(3-δ) Electrospun Nanofiber Bifunctional Catalyst for Oxygen Reduction Reaction and Oxygen Evolution Reaction [C] . Y. Q. Zhang, Y. F. Sun, J. L. Luo PRiME Joint International Meeting of the Electrochemical Society, the Electrochemical Society of Japan, and the Korean Electrochemical Society . 2016

机译：用于氧气还原反应和氧进化反应的开发钴掺杂PR_（0.5）Ba_（0.5）MnO_（0.5）MNO_（3-Δ）电纺纳米纤维双官能催化剂
5. Metal-free Electrocatalysts for Oxygen Evolution Reaction and Photocatalysts for Carbon Dioxide Reduction Reaction [D] . Kadel, Usha Pandey. 2018

机译：用于氧气进化反应的无金属电催化剂和用于二氧化碳还原反应的光催化剂
6. Electrocatalysis: Co‐doping Strategy for Developing Perovskite Oxides as Highly Efficient Electrocatalysts for Oxygen Evolution Reaction (Adv. Sci. 2/2016) [O] . Xiaomin Xu, Chao Su, Wei Zhou, 2016

机译：电催化：发展钙钛矿氧化物作为氧释放反应的高效电催化剂的共掺杂策略（Adv。Sci。2/2016）
7. Mo-Doped Zn, Co Zeolitic Imidazolate Framework-Derived Co9S8 Quantum Dots and MoS2 Embedded in Three-Dimensional Nitrogen-Doped Carbon Nanoflake Arrays as an Efficient Trifunctional Electrocatalysts for the Oxygen Reduction Reaction, Oxygen Evolution Reaction, and Hydrogen Evolution Reaction [O] . -1

机译：Mo掺杂的Zn，Co沸石咪唑酯框架 - 衍生的CO9S8量子点和MOS2，其嵌入三维氮气掺杂碳纳米瓶阵列中，作为氧还原反应，氧逸出反应和氢进化反应的有效三官能电催化剂

B-site doping effects of NdBa0.75Ca0.25Co2O5+delta double perovskite catalysts for oxygen evolution and reduction reactions

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