Nitrogen-doped Ni3P–NiMoO4 heterostructure arrays for coupling hydrogen production with polyethylene terephthalate plastic electro-recycling

[1]  Wenjun Zheng,et al.  Engineered Superhydrophilic/Superaerophobic Array Electrode Composed of NiMoO4@NiFeP for High-Performance Overall Water/Seawater Splitting , 2023, ACS Sustainable Chemistry & Engineering.

[2]  Xiaoting Jing,et al.  Rh–Cu alloy nano-dendrites with enhanced electrocatalytic ethanol oxidation activity , 2023, Journal of Energy Chemistry.

[3]  Ziqiang Wang,et al.  Sulfur-Induced Low Crystallization of Ultrathin Pd Nanosheet Arrays for Sulfur Ion Degradation-Assisted Energy-Efficient H2 Production. , 2023, Small.

[4]  S. Duquesne,et al.  Enzymes' Power for Plastics Degradation. , 2023, Chemical reviews.

[5]  Anqi Cai,et al.  Interface Engineering of MOF-Derived NiMoO4@NiFeP Core-Shell Nanorods for Energy-Saving Hydrogen Evolution via Urea Electrolysis. , 2023, Inorganic chemistry.

[6]  Ziqiang Wang,et al.  Pt Single Atom Captured by Oxygen Vacancy-Rich Nico Layered Double Hydroxides for Coupling Hydrogen Evolution with Selective Oxidation of Glycerol to Formate , 2023, SSRN Electronic Journal.

[7]  Mingfei Shao,et al.  Electrocatalytic Upcycling of Biomass and Plastic Wastes to Biodegradable Polymer Monomers and Hydrogen Fuel at High Current Densities. , 2023, Journal of the American Chemical Society.

[8]  Bin He,et al.  Au core@AuPtRh alloy shell nanowires for ethanol oxidation , 2023, Materials Today Physics.

[9]  Hansung Kim,et al.  Development of metal-organic framework-derived NiMo-MoO3-x porous nanorod for efficient electrocatalytic hydrogen evolution reactions , 2023, Applied Catalysis B: Environmental.

[10]  D. Gao,et al.  Etching-Induced Surface Reconstruction of NiMoO4 for Oxygen Evolution Reaction , 2023, Nano-Micro Letters.

[11]  Zhiliang Liu,et al.  N-Doped Carbon-Coupled Nickel Nitride Species/Ni2P Heterostructure for Enhancing Electrochemical Overall Water Splitting Performance , 2023, Electrochimica Acta.

[12]  Yongfu Sun,et al.  Progress and perspective for conversion of plastic wastes into valuable chemicals. , 2022, Chemical Society reviews.

[13]  Juan Zhang,et al.  Optimizing band structure of CoP nanoparticles via rich‐defect carbon shell toward bifunctional electrocatalysts for overall water splitting , 2022, Carbon Energy.

[14]  H. Pang,et al.  Reactive template‐derived interfacial engineering of CoP/CoO heterostructured porous nanotubes towards superior electrocatalytic hydrogen evolution , 2022, Carbon Energy.

[15]  Zhiyi Pan,et al.  Hierarchical NiCo2S4@NiMoO4 nanotube arrays on nickel foam as an advanced bifunctional electrocatalyst for efficient overall water splitting , 2022, Electrochimica Acta.

[16]  Li Yang,et al.  Insights into the activity of nickel boride/nickel heterostructures for efficient methanol electrooxidation , 2022, Nature Communications.

[17]  Mingfei Shao,et al.  Plastic Waste Valorization by Leveraging Multidisciplinary Catalytic Technologies , 2022, ACS Catalysis.

[18]  Yefeng Liu,et al.  N, P-codoped molybdenum carbide nanoparticles loaded into N, P-codoped graphene for the enhanced electrocatalytic hydrogen evolution , 2022, International Journal of Hydrogen Energy.

[19]  Yafei Li,et al.  High-Performance Ni3P Catalyst for C═O Hydrogenation of Ethyl Levulinate: Niδ+ as Outstanding Adsorption Sites , 2022, ACS Catalysis.

[20]  Wei Tang,et al.  Self-supporting nanoporous CoMoP electrocatalyst for hydrogen evolution reaction in alkaline solution. , 2022, Journal of colloid and interface science.

[21]  Cui Ying Toe,et al.  Earth‐Abundant Metal‐Based Electrocatalysts Promoted Anodic Reaction in Hybrid Water Electrolysis for Efficient Hydrogen Production: Recent Progress and Perspectives , 2022, Advanced Energy Materials.

[22]  Yang Tang,et al.  Carbon Coated and Nitrogen Doped Hierarchical NiMo-Based Electrocatalysts with High Activity and Durability for Efficient Borohydride Oxidation. , 2022, ACS applied materials & interfaces.

[23]  Wei Peng,et al.  Polymetallic Phosphides evolved from MOF and LDH dual-precursors for Robust Oxygen Evolution Reaction in Alkaline and Seawater Media , 2022, Materials Today Physics.

[24]  C. V. Singh,et al.  Interface Engineering of Co/CoMoN/NF Heterostructures for High‐Performance Electrochemical Overall Water Splitting , 2022, Advanced science.

[25]  Jinhua Chen,et al.  In-situ Formed Cu-doped RuS2 Hollow Polyhedrons Integrated with Simultaneously Heterostructure Engineering with Metallic Ru for Boosting Hydrogen Evolution in Alkaline Media , 2022, Materials Today Physics.

[26]  H. Shui,et al.  Regulation of hydrogen evolution performance of titanium oxide–carbon composites at high current density with a Ti–O hybrid orbital , 2022, Carbon Energy.

[27]  Fan Zhang,et al.  From trash to treasure: Chemical recycling and upcycling of commodity plastic waste to fuels, high-valued chemicals and advanced materials , 2022, Journal of Energy Chemistry.

[28]  Nageh K. Allam,et al.  Unveiling the Optimal Interfacial Synergy of Plasma‐Modulated Trimetallic Mn‐Ni‐Co Phosphides: Tailoring Deposition Ratio for Complementary Water Splitting , 2021, ENERGY & ENVIRONMENTAL MATERIALS.

[29]  R. Long,et al.  Accelerating pH-universal hydrogen-evolving activity of a hierarchical hybrid of cobalt and dinickel phosphides by interfacial chemical bonds , 2021, Materials Today Physics.

[30]  Huimin Wu,et al.  Ni, N‐codoped NiMoO4 grown on 3D nickel foam as bifunctional electrocatalysts for hydrogen production in urea‐water electrolysis , 2021 .

[31]  Lirong Zheng,et al.  Electrocatalytic upcycling of polyethylene terephthalate to commodity chemicals and H2 fuel , 2021, Nature Communications.

[32]  Xiaofei Yang,et al.  Nanocarbon encapsulating Ni-doped MoP/graphene composites for highly improved electrocatalytic hydrogen evolution reaction , 2021 .

[33]  J. Qi,et al.  Modification strategies on transition metal-based electrocatalysts for efficient water splitting , 2021, Journal of Energy Chemistry.

[34]  Wenxi Zhao,et al.  Improving the intrinsic electronic conductivity of NiMoO4 anodes by phosphorous doping for high lithium storage , 2021, Nano Research.

[35]  S. Mecking,et al.  Closed-loop recycling of polyethylene-like materials , 2021, Nature.

[36]  Weijia Zhou,et al.  Metallic Ni3Mo3N Porous Microrods with Abundant Catalytic Sites as Efficient Electrocatalyst for Large Current Density and Superstability of Hydrogen Evolution Reaction and Water Splitting , 2020 .

[37]  K. V. Van Geem,et al.  Towards closed-loop recycling of multilayer and coloured PET plastic waste by alkaline hydrolysis , 2020, Green Chemistry.

[38]  S. Duquesne,et al.  An engineered PET depolymerase to break down and recycle plastic bottles , 2020, Nature.

[39]  Ying Dai,et al.  Synthesis of Synergistic Nitrogen-Doped NiMoO4/Ni3N Heterostructure for Implementation of an Efficient Alkaline Electrocatalytic Hydrogen Evolution Reaction , 2020 .

[40]  Xuefeng Guo,et al.  Boosting H2 Generation Coupled with Selective Oxidation of Methanol into Value‐Added Chemical over Cobalt Hydroxide@Hydroxysulfide Nanosheets Electrocatalysts , 2020, Advanced Functional Materials.

[41]  Jianlin Shi,et al.  Nickel-molybdenum nitride nanoplate electrocatalysts for concurrent electrolytic hydrogen and formate productions , 2019, Nature Communications.

[42]  Ce Wang,et al.  Ni Strongly Coupled with Mo2C Encapsulated in Nitrogen‐Doped Carbon Nanofibers as Robust Bifunctional Catalyst for Overall Water Splitting , 2019, Advanced Energy Materials.

[43]  Zhi Liu,et al.  Three-dimensional-networked Ni2P/Ni3S2 heteronanoflake arrays for highly enhanced electrochemical overall-water-splitting activity , 2018, Nano Energy.

[44]  Jiawei Zhu,et al.  F doping and P vacancy engineered FeCoP nanosheets for efficient and stable seawater electrolysis at large current density , 2023, Applied Catalysis B: Environmental.

[45]  Ziqiang Wang,et al.  Energy-efficient hydrogen production coupled with simultaneous electrosynthesis of acetate over mesoporous OsRh film , 2023, Journal of Materials Chemistry A.

[46]  S. Kundu,et al.  Oxygen vacancy enriched NiMoO4 nanorods via microwave heating: a promising highly stable electrocatalyst for total water splitting , 2021 .

[47]  Sung-Fu Hung,et al.  In Situ Spatially Coherent Identification of Phosphide-Based Catalysts: Crystallographic Latching for Highly Efficient Overall Water Electrolysis , 2019, ACS Energy Letters.