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Incorporation of Pd Catalyst into Highly Effective Borophene Nanosheet Co-Catalyst for Electrokinetics and Electrochemical Oxygen Reduction Reactions
To improve the performance of the system, it is of great importance to develop efficient catalysts for ethanol (EtOH) electro-oxidation. Pd/B...
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Facile fabrication of manganese telluride and graphene oxide nanostructure for robust energy storage systems
This study presents hydrothermal synthesis of manganese telluride supported on graphene oxide (MnTe/GO) nanostructure, showcasing its exceptional...
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Copper oxide nanosheets for efficient electrochemical reduction of nitric oxide
The removal of nitric oxide (NO) is deemed essential due to its environmental detrimental effects, and electrocatalytic NO reduction reaction (NORR)...
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Surface controllable anchoring of Cu onto nanostructured PtNi for efficient electrochemical hydrogen evolution from seawater
Composition adjustment and establishment of multifunctional sites are promising routes to enhance the performance of Pt nanoalloys. A new strategy,...
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3D porous rGO/MXene architecture with enhanced and customizable electrochemical performance
The fabrication and functionalization of three-dimensional (3D) MXene are vital for diverse high-performance applications. Herein, the construction...
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Fe–Ni-based alloys as highly active and low-cost oxygen evolution reaction catalyst in alkaline media
NiFe-based oxo-hydroxides are highly active for the oxygen evolution reaction but require complex synthesis and are poorly durable when deposited on...
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Flexible self-supporting laser-induced graphene electrode devices for highly sensitive electrochemical analysis of Allura Red
Flexible self-supported laser-induced graphene (LIG) electrode devices were facilely fabricated through laser ablation technique by employing...
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Two-dimensional MXene@ZIF-8 hybrid-derived TiO2/TiN@N-C heterostructure as an emerging material for electrochemical sensing
Herein, facile room-temperature self-assembly and high-temperature pyrolysis strategy was successively conducted for in situ synthesizing novel TiO 2 /T...
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Facet Regulation of Fe2O3 via Nanoarray Architecture to Enable High Faradic Efficiency for Electrocatalytic Nitrogen Fixation
We propose a facile facet regulation enabled by nanoarray architecture to achieve a high faradic efficiency of Fe 2 O 3 catalyst for NRR. The α-Fe 2 O 3 ...
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Glucose sensing via green synthesis of NiO–SiO2 composites with citrus lemon peel extract
In this study, NiO–SiO 2 -based composites were synthesized through low-temperature aqueous chemical growth utilizing a facile, low-cost, and...
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Bimetallic Pt–Ru covalently bonded on carbon nanotubes for efficient methanol oxidation
Platinum-based nanocomposites have been considered as one of the most promising catalysts for methanol oxidation reactions (MORs), which yet still...
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Engineering CuMn Prussian blue analog-shelled nanobox for efficient electrochemical reduction of nitrate to ammonia
Electrocatalytic nitrate reduction reaction (ENRR) for ammonia synthesis is a promising strategy to relieve nitration contamination, as well as an...
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High specific surface area niobium-doped tin oxide nanoparticles produced in spray flames as catalyst supports in polymer electrolyte fuel cells
Platinum-loaded carbon is commonly used in polymer electrolyte fuel cells (PEFCs); however, it is known to corrode or degrade under high potentials,...
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All-electrochemical synthesis of tunable fine-structured nanoporous copper films
AbstractNanoporous copper (np-Cu) films that feature fine ligament length scales and high surface area are prepared using an all-electrochemical...
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Fabrication and electrochemical performance of spinel copper manganese oxide nanocomposites for supercapacitor application
In this study, the spinel copper manganese oxide (CMO) nanocrystals were synthesized by simple chemical co-precipitation method and was characterized...
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PdPbBi nanoalloys anchored reduced graphene-wrapped metal–organic framework-derived catalyst for enhancing ethylene glycol electrooxidation
AbstractFor future clean energy demand, it is essential to develop highly efficient and durable materials for use in renewable energy conversion...
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Surface reconstruction of heterostructures in alkaline medium towards enhanced electrocatalytic hydrogen evolution
Constructing heterostructures has proved to be a successful strategy to fabricate electrocatalysts with high efficiency for water splitting. However,...
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Facile fabrication of MnTe@CNT nanocomposite for high efficiency hydrogen production via renewable energy sources
It is crucial for water splitting to design highly effective electrode materials with cheap cost and superior effectiveness for the OER (oxygen...
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Charge-controlled compositional/microstructural regulations and electrochemical actuation performance of bulk nanoporous Ni-Pd alloys
Bulk nanoporous (np) metallic actuators have attracted increasing attention due to their large strain and low stimulation voltage. However, studies...
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Hydrogel derived N, P co-doped 3D honeycomb-like nano porous carbon: CAMN6P-3 and its electrochemical properties
The cost-effective and green preparation of electrocatalysts that are highly effective for both the cathode (reduction of oxygen) and anode (methanal...