Magnetron sputtering enabled sustainable synthesis of nanomaterials for energy electrocatalysis
Next-generation energy technologies have captured increasing research interest because of
their fascinating advantages, yet the implementation of such technologies requires efficient …
their fascinating advantages, yet the implementation of such technologies requires efficient …
Recent advances in interface engineering of Fe/Co/Ni-based heterostructure electrocatalysts for water splitting
J Hao, K Wu, C Lyu, Y Yang, H Wu, J Liu, N Liu… - Materials …, 2023 - pubs.rsc.org
Among various methods of develo** hydrogen energy, electrocatalytic water splitting for
hydrogen production is one of the approaches to achieve the goal of zero carbon emissions …
hydrogen production is one of the approaches to achieve the goal of zero carbon emissions …
Chemical etching induced microporous nickel backbones decorated with metallic Fe@ hydroxide nanocatalysts: an efficient and sustainable OER anode toward …
Development of cost-effective and highly efficient electrocatalysts for water splitting is crucial
to produce affordable and sustainable green-hydrogen energy that can alleviate the current …
to produce affordable and sustainable green-hydrogen energy that can alleviate the current …
Designing and tuning the electronic structure of nickel–vanadium layered double hydroxides for highly efficient oxygen evolution electrocatalysis
Despite the considerable efforts in advancing nonprecious-metal candidates as oxygen
evolution reaction (OER) electrocatalysts, cost-effective production of efficient and stable …
evolution reaction (OER) electrocatalysts, cost-effective production of efficient and stable …
Overall water splitting realized by overall sputtering thin-film technology for a bifunctional MoNiFe electrode: A green technology for green hydrogen
Electrode for water electrolysis needs to be prepared by a non-traditional way to overcome
the peel-off problem of electrocatalysts under high current. Herein, we use the sputtering …
the peel-off problem of electrocatalysts under high current. Herein, we use the sputtering …
Designing ternary Co-Ni-Fe layered double hydroxides within a novel 3D cross-flower framework for efficient catalytic performance in oxygen evolution reaction
S Liu, Y Zhang, L Hao, A Nsabimana, S Shen - Journal of Colloid and …, 2025 - Elsevier
In this study, we synthesized novel three-dimensional (3D) cross-flowered Co-Ni metal–
organic framework (Co-Ni-MOF) precursors using the chemical precipitation method …
organic framework (Co-Ni-MOF) precursors using the chemical precipitation method …
rGO functionalized (Ni, Fe)-OH for an efficient trifunctional catalyst in low-cost hydrogen generation via urea decomposition as a proxy anodic reaction
Green hydrogen derived from the water-electrolysis route is emerging as a game changer
for achieving global carbon neutrality. Economically producing hydrogen through water …
for achieving global carbon neutrality. Economically producing hydrogen through water …
Optimal rule-of-thumb design of NiFeMo layered double hydroxide nanoflakes for highly efficient and durable overall water-splitting at large currents
Because hydrogen is an ideal energy source, electrocatalysts for water splitting that employ
transition metal hydroxides rather than expensive precious metals to produce molecular …
transition metal hydroxides rather than expensive precious metals to produce molecular …
Amorphous High-entropy Non-precious metal oxides with surface reconstruction toward highly efficient and durable catalyst for oxygen evolution reaction
S Jiang, K Tian, X Li, CQ Duan, D Wang, Z Wang… - Journal of Colloid and …, 2022 - Elsevier
High-entropy materials (HEMs) have attracted extensive interests in exploring
multicomponent systems for highly efficient and durable catalysts. Tuning composition and …
multicomponent systems for highly efficient and durable catalysts. Tuning composition and …
Ionomer-Free Nickel-Iron bimetallic electrodes for efficient anion exchange membrane water electrolysis
E López-Fernández, C Gómez-Sacedón… - Chemical Engineering …, 2022 - Elsevier
A bottleneck for the deployment of the Anion Exchange Membrane Water Electrolysis
(AEMWE) is the manufacturing of efficient and long lasting anodes and cathodes for the …
(AEMWE) is the manufacturing of efficient and long lasting anodes and cathodes for the …