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Keyword [oxygen evolution reaction]
Result: 141 - 160 | Page: 8 of 10
141. The Preparation Of Transition Metal Compounds And Their Application In Electrocatalytic Water Splitting
142. Electrocatalytic Oer Activity Of Co-Fe LDH In Neutral And Near Neutral Aqueous Solution
143. Study Of Mo2C As Bifunctional Catalysts For Li-Air Batteries
144. Preparation Of Bimetallic/nitrogen-doped Carbon Composites And Their Electrocatalytic Performance For Oxygen Reduction Reaction And Oxygen Evoluton Reaction
145. Synthesis And Properties Of Fe-based Nanocomposites
146. The Construction Of Layered Double Hydroxides-Based Hybrid Materials For Electrochemical Application
147. Carbon-based Nanomaterials For Supercapacitor And Electrocatalytic
148. Two Dimensional Material As Efficient Cocatalyst For Oxygen Evolution Reaction(OER) In Photocatalytic Water Splitting
149. Synthesis And Performance Of Carbon Coupled Cobalt-based Layered Double Hydroxides As Electrocatalysts For Oxygen Evolution Reaction
150. Preparation And Performance Of Co-Ni Hydroxides For Eletro-Catalytic Oxygen Evolution
151. Study On Electrocatalytic Performances Of Co-MOFs-based Composites And Their Deriratives
152. The Treatment And Functionalization Of Co3O4 Nanosheets By Plasma And Their Application For Oxygen Evolution Reaction
153. Theoretical Calculation Studies On The Electrocatalysis Reaction Of Oxygen And Hydrogen And Lithium Iron Phosphate Electrode
154. Synthesis Of 2D Nanocomposites And Their Catalytic Performance In Water Splitting
155. Syntheses And Electrocatalytic Performance Of MCo2O4@Ni3S2(M=Co,Fe) For Water Oxidation
156. Synthesis Of NiFe2O4-NiOOH/Ni Foam Via In Situ Electrochemical Transformation And Their Oxygen Evolution Reaction Performance
157. Synthesis Of Transition Metals Nanocatalyst For Active Oxygen Evolution Catalysis
158. Preparation And Catalytic Performance Characterization Of Cobalt-based Composite Catalysts
159. Preparation And Electrochemecial Properties Of Copper-based Oxide Composite Materials
160. The Investigation Towards Water Splitting Performance Of Metal-based Nanomaterials
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