Bibliografías temáticas / Bi-functional Electrocatalyst

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Literatura académica sobre el tema "Bi-functional Electrocatalyst"

Autor: Grafiati
Publicado: 6 de septiembre de 2023
Última modificación: 31 de julio de 2025

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Artículos de revistas sobre el tema "Bi-functional Electrocatalyst"

1

Ekspong, Joakim, and Thomas Wågberg. "Stainless Steel as A Bi-Functional Electrocatalyst—A Top-Down Approach." Materials 12, no. 13 (2019): 2128. http://dx.doi.org/10.3390/ma12132128.

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For a hydrogen economy to be viable, clean and economical hydrogen production methods are vital. Electrolysis of water is a promising hydrogen production technique with zero emissions, but suffer from relatively high production costs. In order to make electrolysis of water sustainable, abundant, and efficient materials has to replace expensive and scarce noble metals as electrocatalysts in the reaction cells. Herein, we study activated stainless steel as a bi-functional electrocatalyst for the full water splitting reaction by taking advantage of nickel and iron suppressed within the bulk. The
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2

Sunarso, Jaka, Alexey M. Glushenkov, Angel A. J. Torriero, et al. "Bi-Functional Water/Oxygen Electrocatalyst Based on PdO-RuO2Composites." Journal of The Electrochemical Society 160, no. 1 (2012): H74—H79. http://dx.doi.org/10.1149/2.019302jes.

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3

Tang, Shaobin, Xunhui Zhou, Tianyong Liu, et al. "Single nickel atom supported on hybridized graphene–boron nitride nanosheet as a highly active bi-functional electrocatalyst for hydrogen and oxygen evolution reactions." Journal of Materials Chemistry A 7, no. 46 (2019): 26261–65. http://dx.doi.org/10.1039/c9ta10500j.

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4

Wang, Hao-Fan, Cheng Tang, Xiaolin Zhu, and Qiang Zhang. "A ‘point–line–point’ hybrid electrocatalyst for bi-functional catalysis of oxygen evolution and reduction reactions." Journal of Materials Chemistry A 4, no. 9 (2016): 3379–85. http://dx.doi.org/10.1039/c5ta09327a.

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A hybrid electrocatalyst with ‘active point–conductive line–active point’ connections was proposed and exhibited superb bi-functional reactivity for both oxygen reduction and oxygen evolution reactions.
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5

Meng, Lu, Ling Zhan, Hongliang Jiang, Yihua Zhu, and Chunzhong Li. "Confined Co9S8 into a defective carbon matrix as a bifunctional oxygen electrocatalyst for rechargeable zinc–air batteries." Catalysis Science & Technology 9, no. 20 (2019): 5757–62. http://dx.doi.org/10.1039/c9cy01717h.

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Jin, Liujun, Hui Xu, Cheng Wang, Yong Wang, Hongyuan Shang, and Yukou Du. "Multi-dimensional collaboration promotes the catalytic performance of 1D MoO3 nanorods decorated with 2D NiS nanosheets for efficient water splitting." Nanoscale 12, no. 42 (2020): 21850–56. http://dx.doi.org/10.1039/d0nr05250g.

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Novel NiS/MoO<sub>3</sub>/NF heterostructured nanorods/nanosheets were rationally constructed via a hydrothermal method followed by an efficient sulfidation treatment to serve as a bi-functional electrocatalyst for overall water splitting.
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7

Wang, Yaqin, Xinxin Xu, Luyao Liu, Jin Chen, and Guimei Shi. "A coordination polymer-derived Co3O4/Co–N@NMC composite material as a Zn–air battery cathode electrocatalyst and microwave absorber." Dalton Transactions 48, no. 21 (2019): 7150–57. http://dx.doi.org/10.1039/c8dt03792b.

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With a one-dimensional coordination polymer as a precursor, a Co–N active center-rich Co<sub>3</sub>O<sub>4</sub>-based bi-functional electrocatalyst was synthesized as a cathode for Zn–air batteries.
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8

Chen, Xiaojuan, Yan Meng, Taotao Gao, et al. "An iron foam acts as a substrate and iron source for the in situ construction of a robust transition metal phytate electrocatalyst for overall water splitting." Sustainable Energy & Fuels 4, no. 1 (2020): 331–36. http://dx.doi.org/10.1039/c9se00348g.

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The cheap iron foam as a 3D substrate for in situ electrochemical preparing bi-functional electrocatalyst. The introduction of phytates facilitates the construction of 3D networks and the join of Co and Fe further creates more catalytic active sites.
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9

Yuan, Shi-Jie, and Xiao-Hu Dai. "An efficient sewage sludge-derived bi-functional electrocatalyst for oxygen reduction and evolution reaction." Green Chemistry 18, no. 14 (2016): 4004–11. http://dx.doi.org/10.1039/c5gc02729b.

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An efficient, low cost, and stable bi-functional electrocatalyst for ORR and OER consisting of N, Fe, and S multi-doped nanoporous carbon was produced by a facile one-step pyrolysis of sewage sludge under NH<sub>3</sub> conditions.
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10

Wu, Caiyun, Yunmei Du, Yunlei Fu, et al. "Mo, Co co-doped NiS bulks supported on Ni foam as an efficient electrocatalyst for overall water splitting in alkaline media." Sustainable Energy & Fuels 4, no. 4 (2020): 1654–64. http://dx.doi.org/10.1039/c9se00822e.

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In this study, a composite of Mo, Co co-doped NiS bulks grown on an Ni foam (Mo,Co-NiS/NF) was synthesized as a bi-functional electrocatalyst for hydrogen evolution reaction (HER) and oxygen evolution reaction (OER) using a simple method.
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Tesis sobre el tema "Bi-functional Electrocatalyst"

1

Nandan, Ravi. "Rational Designing of Bifunctional Electrocatalysts for Electrochemical Energy Conversion and Storage Devices." Thesis, 2017. https://etd.iisc.ac.in/handle/2005/4302.

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Depleting fossil fuels, increasing environmental concerned and looming energy crisis motivates researcher around the globe to explore some of the possible eco-friendly energy alternative resources. Among various available selections, electrochemical energy conversion and storage devices have the potential to serve the portable electronics to automobile sectors. In this regard, direct alkaline methanol fuel cell (DAMFC) is very promising. The efficiency of DAMFC mainly depends upon methanol oxidation reaction (MOR) and oxygen reduction reaction (ORR) that take place at anode and cathode o
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Actas de conferencias sobre el tema "Bi-functional Electrocatalyst"

1

Panigrahy, Bharati, B. Ramachandra Rao, and Vipul Kumar Maheshwari. "Development and Demonstration of In-House Design Green Hydrogen Production Technologies with Reduced CAPEX and OPEX." In ADIPEC. SPE, 2024. http://dx.doi.org/10.2118/222255-ms.

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Abstract Design of highly efficient cost effective and self-supported bi-functional electrocatalyst for the production of green Hydrogen is significant for renewable and sustainable energy conversion to achieve future carbon neutral. Meanwhile, as we know that the overall water splitting is an uphill reaction requires 285.8 kJ of energy, corresponds to the HHV of hydrogen, state-of-the-art developments are necessary to greatly improve the efficiency by rationally designing non-precious metal-based robust bi-functional catalysts for promoting both the cathodic hydrogen evolution and anodic oxyg
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