(PDF) Boosting Hydrogen Production by Electrooxidation of

Boosting Hydrogen Production by Electrooxidation of Urea Over 3D Hierarchical Ni4N/Cu3N Nanotube Arrays

doi 10.1021/acssuschemeng.9b02510.s001

Full Text

Abstract

Available in full text

Date

Unknown

Authors

Unknown

Publisher

American Chemical Society (ACS)

Related search

Hybrid Process for Hydrogen Production by the Use of SO2 Electrooxidation in the Hydrogensulfate Melts.

NIPPON KAGAKU KAISHI

English

Electroless Deposition of Nickel Nanowire and Nanotube Arrays as Supports for Pt-Pd Catalyst for Ethanol Electrooxidation

Chinese Journal of Chemical Physics

Theoretical Chemistry

English

Electrocatalytic Performance of Titania Nanotube Arrays Coated With MoS2 by ALD Toward the Hydrogen Evolution Reaction

Chemical Engineering

English

Robust 3D Face Recognition by Local Shape Difference Boosting

IEEE Transactions on Pattern Analysis and Machine Intelligence

Pattern Recognition

Applied Mathematics

Computer Vision

Computational Theory

Artificial Intelligence

English

Electrooxidation of Alkyd Resin Production Wastewater by Boren Doped Diamond Electrode

Academic Perspective Procedia

English

Selective Production of Hydrogen by Steam Reforming of Glycerin Over Alumina- Supported Nickle Catalyst

International Journal of ChemTech Research

English

Wave Processes in Nanostructures Formed by Nanotube Arrays or Nanosize Crystals

Journal of Applied Mechanics and Technical Physics

Mechanics of Materials

Condensed Matter Physics

Mechanical Engineering

English

A 3D Hierarchical Porous Co3O4 Nanotube Network as an Efficient Cathode for Rechargeable Lithium–oxygen Batteries

Journal of Materials Chemistry A

Materials Science

the Environment

Renewable Energy

English

Photocatalytic Properties of Size-Controlled Titania Nanotube Arrays

International Journal of Electrochemistry

English