comparison of nonprecious metal cathode materials for

Comparison of Nonprecious Metal Cathode Materials

Comparison of Nonprecious Metal Cathode Materials for Methane Production by Electromethanogenesis. By Michael Siegert, Matthew D Yates, Douglas F Call, Xiuping Zhu, Alfred Spormann and Bruce E Logan No static citation data No static citation data Cite

Critical advancements in achieving high power and stable

Despite great progress in the development of nonprecious metal catalysts (NPMCs) over the past several decades, the performance and stability of these promising catalysts have not yet achieved commercial readiness for proton exchange membrane fuel cells (PEMFCs). Through rational design of the cathode catalyst layer (CCL), we demonstrate the highest reported performance for an NPMC

Comparison of Nonprecious Metal Cathode Materials for

2014/4/7Comparison of Nonprecious Metal Cathode Materials for Methane Production by Electromethanogenesis. Siegert M(1), Yates MD(1), Call DF(2), Zhu X(1), Spormann A(3), Logan BE(1). Author information: (1)Department of Civil and Environmental Engineering, The Pennsylvania State University, University Park, Pennsylvania 16802, United States.

A review of the stability and durability of non

A major hurdle to the widespread commercialization of proton exchange membrane fuel cells (PEMFCs) is the high loading of noble metal (Pt/Pt-alloy) catalyst at the cathode, which is necessary to facilitate the inherently sluggish oxygen reduction reaction (ORR). To eliminate the use of Pt/Pt-alloy catalysts at the cathode of PEMFCs and thus significantly reduce the cost, extensive research on

Reviving the lithium

In the past several decades, the research communities have witnessed the explosive development of lithium-ion batteries, largely based on the diverse landmark cathode materials, among which the application of manganese has been intensively considered due to the economic rationale and impressive properties. Lithium-manganese-based layered oxides (LMLOs) are one of the most promising cathode

A class of non

2013/10/14An alternative approach is to replace Pt with abundant, nonprecious materials that are not susceptible to price in?ation under high-demand circumstances. The class of non-precious cathode catalysts that has attracted the most attention over the years is pyrolized metal porphyrins, with cobalt and iron porphyrins viewed as the most promising precursors.

Ballard to Offer World's First PEM Fuel Cell Product Using

2017/9/12Nisshinbo's Non Precious Metal Catalyst is based on a carbon alloy material which further reduces the cost of an air-cooled fuel cell stack. Ballard and Nisshinbo jointly presented a paper entitled "Non-Precious Metal Catalysts: Cathode Catalyst Layer Design Considerations for High Performance and Stability" at the SSI-21 Conference held in Padua, Italy in June 2017.

Electrode materials for microbial fuel cells: nanomaterial

2015/11/5The higher cost of metal catalyst along with limited global reserve appealed researchers to find an alternative with comparable catalytic activity, less expensive materials for ORR at cathode. Recently, it was reported that metals as catalyst in ORR only promote the formation of active sites and have no role in catalytic function [ 77 ].

Correction to Comparison of Nonprecious Metal Cathode

2016/9/6Correction to Comparison of Nonprecious Metal Cathode Materials for Methane Production by Electromethanogenesis. Siegert M, Yates MD, Call DF, Zhu X, Spormann A, Logan BE. Erratum for ACS Sustain Chem Eng. 2014 Apr 7;2(4):910-917.

Anode Materials for Li

Anode Material Requirements In order to be suitable for lithium-ion battery manufacturing, anode materials should meet the following requirements: Excellent porosity and conductivity. Good durability and light weight. Low Cost. Voltage match with preferred cathode.

Frontiers

2020/11/26The development of active and low-cost electrocatalysts for the oxygen reduction reaction (ORR) is crucial for the sustainable commercialization of fuel cell technologies. In this study, we have synthetized Me/Mo2C (Me = Fe, Co, Cu)-based composites embedded in N- and P-dual doped carbon by means of inexpensive industrial materials, such as melamine and chitosan, as C and N sources, and

Electrochemical Energy Storage Materials – HIU Batteries

Electrochemical Energy Storage Materials Die Forschungsgruppe „Electrochemical Energy Storage Materials" befasst sich mit der Erforschung einer Vielzahl von Materialien und Technologien fr elektrochemische Energiespeicher und der Entwicklung eines grundlegenden Verstndnisses der ablaufenden Reaktionen und Mechanismen. Im Fokus der Arbeiten der Forschungsgruppe

A class of non

Electrochemical and Computational Study of Oxygen

The recently developed transition metal/nitrogen doped carbon-based materials (TM-N-C) exhibited catalytic activity close to that of platinum, but there are still many questions under debate. In this thesis, electrochemical and computational methods were employed

Critical advancements in achieving high power and stable

2018/3/23Although significant advances in PGM electrocatalysts have provided a clear pathway to achieving lower PGM loadings (2–4), recent advances in nonprecious metal catalysts (NPMCs) have given hope for achieving the "holy grail" of PEMFC cathode

Frontiers

2021/5/71. Introduction Improved lithium transport in separators can enhance the energy efficiency and power density of batteries. The use of ionic-liquid-based electrolytes in lithium-ion batteries has been shown to improve both current tolerance and cycle life (Lu et al., 2014; Piper et al., 2015).).

Precious Metals

2021/1/13This metal is also similar to palladium in its ability to withstand great quantities of hydrogen. Largest producers: South Africa, Russia, Canada and other mineral processing countries. Uses: Jewelry, due to its lustrous look and remarkable resistance, dentistry, weaponry and aeronautics.

Catalysis Working Group

2021/5/7The Catalysis Working Group (CWG) meets twice per year to exchange information, create synergies, and collaboratively develop both an understanding of and tools for studying electrocatalysis for polymer electrolyte fuel cells (PEFCs) and other low- and intermediate-temperature fuel cell systems

Comparison of Nonprecious Metal Cathode Materials for Methane

Comparison of Nonprecious Metal Cathode Materials for Methane Production by Electromethanogenesis Michael Siegert,† Matthew D. Yates,† Douglas F. Call,†,‡ Xiuping Zhu,† Alfred Spormann, and Bruce E. Logan*,† †Department of Civil and Environmental Engineering, The Pennsylvania State University, University Park, Pennsylvania 16802,

Coating for improving electrochemical performance of

2020/10/28However, cathode surface exposed to the electrolyte plays an important role in metal dissolution and oxygen generation. As can be seen, to improve the cycle performance and safety of NCM523, elements doping, multiple ion doping, surface treatment, and other methods had been adopted.

Comparison of Nonprecious Metal Cathode Materials for Methane

2013/12/9Comparison of Nonprecious Metal Cathode Materials for Methane Production by Electromethanogenesis Michael Siegert,† Matthew D. Yates,† Douglas F. Call,†,‡ Xiuping Zhu,† Alfred Spormann, and Bruce E. Logan*,† †Department of Civil and Environmental Engineering, The Pennsylvania State University, University Park, Pennsylvania 16802,