Electrocatalysts for Hydrogen Energy

Electrocatalysts for Hydrogen Energy / [edited by Boz̄ena Łosiewicz].

This special topic volume deals with the development of novel solid state electrocatalysts of a high performance to enhance the rates of the hydrogen or oxygen evolution. It contains a description of various types of metals, alloys and composites which have been obtained using electrodeposition in a...

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Bibliographic Details
Other Authors: Łosiewicz, Boz̄ena (Editor)
Format: eBook
Language:English
Published: Zurich : Trans Tech Publishers, ©2015.
Series:Diffusion and defect data. Solid state phenomena ; v. 228.
Subjects:
Electrocatalysts.
Electrospinning.
Nanofibers.
nanofiber.
TECHNOLOGY & ENGINEERING > Technical & Manufacturing Industries & Trades.
TECHNOLOGY & ENGINEERING > Textiles & Polymers.
Electrospinning
Nanofibers
Online Access:Click for online access
Table of Contents:
  • Electrocatalysts for Hydrogen Energy; Preface; Table of Contents; I. Conventional and Novel Electrode Materials; Electrode Materials; Intermetallic Compounds as Catalysts in the Reaction of Electroevolution/Absorption of Hydrogen; Multi-Phased Electrode Materials for the Electroevolution of Oxygen; Amorphous Ni-P Electrode Materials; New Ni-Me-P Electrode Materials; Characterization of Composite Coatings Obtained by Electrodeposition; Physical and Chemical Characterization of Ni+MoO2 Composite Electrocoatings; II. Electrodeposition of Composite Electrocatalysts.
  • Electrodeposition Mechanism of Composite Coatings ; Characteristics of the Galvanic Baths for Electrodeposition of Nickel Coatings Using the Hull Cell; The Role of Ni(II) Ion Adsorption onto TiO2 in the Electrodeposition of Composite Ni-P+TiO2 Coatings; Relaxation Characteristics of the Electrodeposition Process of Composite Ni-P+TiO2+PTFE and Ni-P+Ni(OH)2+PTFE Coatings; Electrodeposition Process of Composite Ni-P+Ni(OH)2+PTFE Coatings; DC Current Electrodeposition of High Mo Content Ni-Mo Alloy Coatings from Alkaline Solutions; Electrodeposition of the Ni+MoS2 Composite Electrocatalysts.
  • Electrodeposition of the Ni-Mo+MoO2 Composite Electrocoatings III. Structure of Electrode Materials; Effect of Phosphorus on the Structure of Nickel Electrocoatings; Effect of Heat Treatment on the Structure of Ni-P Electrocoatings; Production and Structure of Ni-W and Ni+W Coatings; Electrodeposition and Thermal Treatment of Nickel Coatings Containing Cobalt; Production and Structure of Nickel-Phosphorus Electrolytic Coatings Modified with Metallic Tungsten or Nickel Oxide; Electrolytic Production and Structure of Ni+Al+Ti Composite Coatings.
  • Electrodeposition and Thermal Treatment of Ni+W+Si and Ni+W+Mo+Si Composite Coatings IV. Electrochemical Properties of Solid State Electrocatalysts; Aims of Electrocatalysis; Hydrogen Evolution Reaction on Nickel-Phosphorus+Titanium Oxides Composite Electrocoatings; Tailoring Structural and Electrochemical Properties of Composite Ni-Based Electrocoatings; Cyclic Voltammetry Studies on Electrochemical Behavior of the Composite Ni-P+TiO2 Electrocatalysts in Alkaline Solutions; Comparison of Electrocatalytic Activity of the Composite Ni-P+NiO and Ni-P+Ni(OH)2 Coatings for Hydrogen Evolution.
  • Production and Electrochemical Characterization of Nickel Based Composite Coatings Containing Chromium Group Metal and Silicon PowdersComparison of Electrochemical Properties of Ni+MoS2 and Ni Coatings in an Alkaline Solution; Influence of Thermal Treatment on the Electrochemical Properties of Ni+Mo Composite Coatings in an Alkaline Solution; The Influence of Temperature of Electrodeposition on the Electrochemical Properties of Ni+MoS2 Composite Coatings; The Influence of Temperature of Electrodeposition on the Electrochemical Properties of Ni Coatings.

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