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Article
Materials Science, Ceramics
G. T. Chavan et al.
Summary: This study evaluated the effectiveness of composite Co(1-x)ZnxS thin film electrodes as energy storage devices, showing high diffusion rate, low resistance, and excellent specific capacitance. The optimal electrode exhibited better power density, energy density, and capacitive retention.
CERAMICS INTERNATIONAL
(2023)
Review
Chemistry, Inorganic & Nuclear
Dongliang Chen et al.
Summary: This article provides a comprehensive review on the recent progress of metal selenides for energy storage and conversion, emphasizing the difference and necessity of each metal selenide. The crystal and electronic structures, synthesis and modification methods, as well as the challenges and outlook of metal selenides in energy storage and conversion are discussed.
COORDINATION CHEMISTRY REVIEWS
(2023)
Article
Energy & Fuels
Yogesh Kumar Sonia et al.
Summary: A slow-precipitation-induced material growth approach was used to design a hetero oxide-sulfide [MnO2/NiS-MnS (MnO2/Ni-Mn-S)] material with smaller crystallite size, ultrathin assembled-sheet-like microstructure, and perceptible phase physiognomies (alpha-MnO2, MnS, and alpha-NiS), which revolutionizes the charge storage efficiency of electrode materials for high Ragone efficient electrochemical energy storage devices.
Article
Chemistry, Physical
Menghe Jiang et al.
Summary: In this study, MnxCoyO4 @MoS2 composites were obtained by coating flake MoS2 arrays on spherical MnxCoyO4 via hydrothermal and heat treatment methods. The MnxCoyO4 @MoS2 electrode material exhibited a specific capacitance of 1422 F g-1 at 1 A g-1 when x/y = 1:2, higher than that at x/y = 1:1 and 2:1. When assembled into an aqueous asymmetric supercapacitor, the proposed electrode material provided a specific capacitance of 131 F g-1 at 1 A g-1. After 5000 cycles, the electrode material showed a capacity retention of 85% and the device retained a specific power of 794 W kg-1 with 46.58 Wh kg-1. This electrode material design offers new ideas for the development of advanced electrodes.
JOURNAL OF ALLOYS AND COMPOUNDS
(2023)
Article
Chemistry, Physical
Junpeng Liu et al.
Summary: In this paper, a novel NiCoCr-LDH/NiCoO2@NF (1D/2D/3D) composite was developed for supercapacitor. The composite achieved enhanced cycle stability and conductivity through the combination of one-dimensional Cr-doped NiCoCr-LDH, two-dimensional NiCoO2, and three-dimensional Ni foam. The heterointerface formed by LDH, metal oxides, and Ni foam in the composite improved the conductivity and stability of active electrode materials. The as-fabricated electrode using NiCoCr-LDH/NiCoO2@NF composites showed excellent area specific capacitance and good capacitance retention in both single electrode and asymmetric supercapacitor configurations.
JOURNAL OF ALLOYS AND COMPOUNDS
(2023)
Article
Chemistry, Physical
Hui Lv et al.
Summary: Developing advanced electrode materials for high-performance supercapacitors is important but challenging due to the low specific capacitance of carbon-based electrodes and the slow charge transfer kinetics of pseudocapacitive materials. In this study, a hybrid electrode material was designed and prepared, consisting of copper sulfide particles loaded on a 3D hierarchical porous carbon. The optimized sample exhibited a high specific capacitance of 1372 F g-1 and an energy density of 75.3 W h kg-1 with excellent long-life stability. This work provides a feasible route for developing hybrid electrodes for high-performance energy storage systems.
JOURNAL OF ALLOYS AND COMPOUNDS
(2023)
Article
Chemistry, Physical
Wenrui Wu et al.
Summary: A nanoflower-like Cu2CoSnS4 material with a special porous structure and abundant electrochemical active sites was successfully constructed on a nickel foam substrate using a one-step solvothermal method. The nanoflower-like shape increased ion transport channels and provided a large number of active sites, which greatly improved the electrochemical performance. The synergistic effect between the ternary transition metal ions also contributed to the enhanced performance. The electrode material showed outstanding specific capacitance (1690 mF cm-2), perfect rate performance (79.6%), and superb cycle consistency (99.6% after 5000 cycles). The assembled asymmetric supercapacitor (ASC) exhibited a high potential window (0-1.4 V), excellent energy density (0.0065 mWh cm-2 at 0.14 mW cm-2), and magnificent capacitance remains (95.6% after 5000 cycles). The electrode material has a low acquisition cost, excellent electrochemical performance, and broad utility possibilities in the supercapacitor market.
JOURNAL OF ALLOYS AND COMPOUNDS
(2023)
Review
Green & Sustainable Science & Technology
Isacfranklin Melkiyur et al.
Summary: This review provides an overview of supercapacitors, including their historical development, principles, working mechanisms, and key components. It also focuses on the research progress and improvements in using novel quaternary metal oxides and sulphides as active electrodes in high-performing supercapacitors. The study suggests that these new materials play a pivotal role in enhancing energy conversion and storage systems, addressing the challenges faced by carbon materials.
RENEWABLE & SUSTAINABLE ENERGY REVIEWS
(2023)
Article
Energy & Fuels
G. T. Chavan et al.
Summary: This study reports the rational design of 3D hollow cube architecture of MnCoNiS nanostructures for the fabrication of efficient hybrid supercapacitors. The resulting MCNS-4 electrode exhibits excellent specific capacitance and areal capacitance. The ASC device based on MCNS/NF//AC/NF structure shows high energy density, power density, and exceptional cyclic stability.
JOURNAL OF ENERGY STORAGE
(2023)
Article
Chemistry, Physical
Ning Liu et al.
Summary: Researchers synthesized a new cobalt pentlandite structured (Fe, Co, Ni)(9)S-8 material, which showed good potential for use in supercapacitors, with high specific capacity and cycling stability. The optimized sample exhibits a relatively high energy density in a button-type hybrid supercapacitor, demonstrating promising possibilities for practical energy storage devices.
APPLIED SURFACE SCIENCE
(2023)
Article
Chemistry, Multidisciplinary
Amala George et al.
Summary: A systematic synthetic method involving anion exchange was used to fabricate superior three-dimensional copper cobalt oxide (CCO) and copper cobalt sulfide (CCS) electrode materials. The tuning of chemical, crystalline, and morphological properties was achieved through anion exchange and phase transformation. CCO and CCS showed superior electrochemical activity compared to the starting material, and the thermal treatment of CCO resulted in a highly porous structure. The CCS morphology had high exposure of active sites and showed hierarchical urchin structures with enhanced electron/ion transportation channels. The asymmetric supercapacitor constructed with a CCS cathode exhibited high specific capacity and durability, with ultrahigh energy and power density during device performance.
Article
Engineering, Environmental
Nilesh R. Chodankar et al.
Summary: The authors developed a solution-free dry carbon tetrafluoride plasma strategy to fabricate self-assembled nickel fluoride nanostructures for high-energy hybrid supercapacitors. The resulting NiF nanostructures exhibited high electrochemical activity, cycling stability, and rate capability in aqueous electrolytes. Additionally, an aqueous HSC cell assembled with NiF nanostructures and activated carbon showed high energy density, cycling durability, and rate capability.
CHEMICAL ENGINEERING JOURNAL
(2023)
Article
Electrochemistry
Yue Yu et al.
Summary: The MgCo2O4@NiCo2S4 core-shell structure was synthesized through hydrothermal and annealing methods. The combination of MgCo2O4 nanoneedles and NiCo2S4 nanosheets enhances the electronic transmission capability. The specific capacity of MgCo2O4@NiCo2S4 reaches 1255.1 C g(-1) at 1 A g(-1) and exhibits excellent cycling stability.
ELECTROCHIMICA ACTA
(2023)
Article
Chemistry, Physical
Yan Zhang et al.
Summary: The design and composition of electrode materials have a positive effect on supercapacitors. In this study, a ternary Zn-Ni-Co-S (ZNCS)/Zn-Ni-Co-O (ZNCO) composite was prepared using hydrothermal vulcanization. The composite showed a hierarchical structure with large specific area, uniform mesoporous distribution, and good conductivity. The assembled ZNCS/ZNCO//AC HSC device demonstrated a long lifespan of 93.3% for 20,000 cycles at 7 A/g, with a specific energy of 67.05 Wh/kg.
JOURNAL OF ALLOYS AND COMPOUNDS
(2023)
Article
Energy & Fuels
Moo Young Jung et al.
Summary: The development of high energy density supercapacitors is crucial for addressing environmental pollution concerns and meeting the demand for energy storage systems. This study presents hybrid electrodes composed of cobalt phosphide (CoP) and nickel phosphide (NiP) materials on nickel foam (NF), demonstrating improved energy density and specific capacitance compared to individual electrodes. The asymmetric supercapacitor (ASC) based on NiP/CoP@NF electrode exhibits excellent energy density and long-term stability, outperforming previously reported NiCoP-based ASCs.
JOURNAL OF ENERGY STORAGE
(2023)
Article
Chemistry, Physical
Xiaoxiao Qu et al.
Summary: As advanced energy storage devices for commercial applications, hybrid supercapacitors (HSCs) assembled with electric double-layer capacitive- and battery-type electrodes combine the advantages of electric double-layer capacitors and batteries. Therefore, it offers very high potential as well as higher energy density with sufficient durability than other energy storage devices. However, the selection of electrodes has a considerable determining effect on the performance of HSCs.
JOURNAL OF ALLOYS AND COMPOUNDS
(2023)
Review
Chemistry, Multidisciplinary
Niraj Kumar et al.
Summary: This review focuses on the recent advancements in utilizing 0-dimensional to 3-dimensional carbon network materials as electrode materials for high-performance supercapacitor devices. The combination of these materials with other cutting-edge materials has been extensively studied to achieve a wide operating potential window. Hybrid composite electrodes with 3D structures exhibit the best potential in terms of overall electrochemical performance. This study highlights the challenges and potential of carbon-based materials in supercapacitor applications.
NANOSCALE ADVANCES
(2023)
Article
Chemistry, Physical
G. T. Chavan et al.
Summary: A new chalcogenide semiconductor material, Cd1-x-yZnxCuySzSe1-z, was prepared using a non-vacuum deposition technique for photoelectrochemical solar cell applications, showing a high surface area and additional reactive sites, with the highest efficiency achieved at 1.60%. The material is highlighted for further studies.
APPLIED SURFACE SCIENCE
(2022)
Article
Materials Science, Ceramics
Shunxiang Wang et al.
Summary: This study synthesized yolk-shell structured CuCo2S4 grown on NiO nanosheets (NiO@CuCo2S4) and investigated the effect of different amounts of vulcanizing agent (thiourea) on its electrochemical performance. The optimal NiO@CuCo2S4 composition showed a specific capacitance of 1658 F g-1 at 1 A g-1, suggesting its promising potential for energy storage applications.
CERAMICS INTERNATIONAL
(2022)
Article
Engineering, Environmental
Aviraj M. Teli et al.
Summary: Binary metal oxides, specifically BiMnO3, were deposited on nickel foam to create nanostructures with high surface capacitance, energy density, and cycling stability. These nanostructures showed promise for energy storage applications.
CHEMICAL ENGINEERING JOURNAL
(2022)
Article
Electrochemistry
Kai Zhang et al.
Summary: CuCo2S4 sulfides with a 3D hollow nanotube structure were successfully fabricated through hydrothermal deposition and sulfurization. The optimized CuCo2S4/NF8 electrode material exhibited superior electrochemical performances and good cycling stability. Furthermore, a hybrid supercapacitor device based on CuCo2S4/NF8 and activated carbon demonstrated ultrahigh energy density and capacitance retention.
ELECTROCHIMICA ACTA
(2022)
Article
Chemistry, Analytical
Yanli Li et al.
Summary: Rational construction of microstructure and successful incorporation of multiple components offer a scalable strategy for applying electrode materials in asymmetric supercapacitors. A flexible solid-state asymmetric supercapacitor with hierarchical hybrid NCA-LDH@NCS@CC electrode and AC@CC electrode demonstrates outstanding electrochemical performance and cycling stability.
JOURNAL OF ELECTROANALYTICAL CHEMISTRY
(2022)
Article
Chemistry, Physical
Zixiao Li et al.
Summary: A hollow multivariate hybrid with polyphase interfaces and hierarchical porosity (CoNi-SP/C) is prepared via a one-step sulfurization/phosphorization transformation approach. The prepared CoNi-SP/C exhibits superior capacity and pseudocapacitive activity in energy storage.
JOURNAL OF MATERIALS CHEMISTRY A
(2022)
Article
Physics, Applied
Peng Sun et al.
Summary: This study achieves a NiCoB-based in-plane textile device with excellent electrochemical and mechanical performances by combining screen printing and electroless deposition strategies. The device has a two-layer structure and utilizes NiCoB for enhanced stability and energy storage performance. Additionally, when coupled with a synthesized negative material, the micro-supercapacitor demonstrates great performances in energy storage and mechanical stability.
APPLIED PHYSICS LETTERS
(2022)
Article
Materials Science, Ceramics
A. M. Teli et al.
Summary: Transition metal chalcogenides, specifically molybdenum disulfide (MoS2), have attracted attention in the field of energy storage due to their unique properties. In this study, MoS2 was successfully deposited on Ni foam using a one-step electrode-position method, resulting in an interconnected crumpled-nanoflake structure. The MoS2 electrodes exhibited excellent electrochemical performance, with a maximum areal capacitance of 416.9 mFcm?2. An asymmetric device constructed with MoS2 and activated carbon as electrodes showed promising energy storage capabilities, with an areal capacitance of 277.3 mFcm(-2) and energy density of 0.15 mWhcm(-2) at 5.33 mWcm(-2) power density. Furthermore, the device demonstrated high cyclability and coulombic efficiency, making MoS2 and MoS2//AC devices potential candidates for emerging energy storage applications.
CERAMICS INTERNATIONAL
(2022)
Article
Materials Science, Ceramics
Periyasamy Sivakumar et al.
Summary: This study reports the facile fabrication of one-dimensional hollow cuboid-like FeMoO4 micro/nanostructures and investigates their electrochemical performance. The unique hollow cuboid-like architecture facilitates charge transport and decreases capacitance fading. The calcination process creates extra void space in the structure, promoting electrolyte ion diffusion and improving rate capability and cyclic durability. The CFMO micro/nanostructures exhibit good electrochemical performance with a higher specific capacitance compared to AFMO materials.
CERAMICS INTERNATIONAL
(2022)
Article
Chemistry, Multidisciplinary
Syed Shaheen Shah et al.
Summary: With advancements in technology, the demand for energy is increasing, necessitating efficient energy storage systems. Electrochemical energy storage devices like batteries and supercapacitors have gained significant research attention. Hybrid supercapacitors (HSCs) combining the advantages of batteries and supercapacitors have improved specific energy, specific power, and other performance metrics. Carbonaceous and redox-active materials as electrode materials enhance the electrochemical performance of HSCs.
Article
Energy & Fuels
Perumal Naveenkumar et al.
Summary: The surface morphologies of active electrode materials significantly impact the performance of supercapacitors. The CuCo1.0Ni1.0S4 electrode exhibits outstanding specific capacity, rate capability, and cycle performance, making it a promising material for electrochemical energy storage and conversion applications.
Article
Chemistry, Physical
G. T. Chavan et al.
Summary: This study explores the potential application of Co1-xCuxS/CoCuS thin films as materials for supercapacitors. The as-deposited thin films were characterized using various techniques. The results demonstrate that the sample-C-3 (x = 0.075) is suitable for energy storage applications, showing excellent supercapacitive performance and cycling stability, which suggests its potential as an alternative for efficient energy storage devices.
JOURNAL OF ALLOYS AND COMPOUNDS
(2022)
Article
Chemistry, Physical
Yajie Guo et al.
Summary: Transition metal oxides are promising electrode materials for supercapacitors, but their applications are limited by slow charge transfer kinetics and insufficient active sites. This study reports the preparation of sulfur-doped zinc-nickel-cobalt oxides using heteroatom doping and defect engineering, which successfully increases the redox reaction active sites and improves the electrochemical kinetics of the electrode material. The results show a high specific capacitance and energy density for the SZNCO electrode, demonstrating the potential for advanced transition metal compounds in supercapacitors.
JOURNAL OF ALLOYS AND COMPOUNDS
(2022)
Article
Chemistry, Physical
Wuquan Ye et al.
Summary: In this study, an advanced electrode based on hierarchical porous cobalt-manganese-copper sulfide nanodisk arrays was successfully fabricated, using metal-organic frameworks as sacrificial templates. The obtained electrode exhibited fast redox reaction kinetics and excellent specific capacity and rate performance. Furthermore, the hybrid supercapacitor using this electrode achieved high energy density, high power density, and long cycle life.
JOURNAL OF COLLOID AND INTERFACE SCIENCE
(2022)
Article
Chemistry, Inorganic & Nuclear
Jiaying Zhang et al.
Summary: In this study, NiCoMn-S nanoparticles were composited with two-dimensional layered Ti3C2 via a simple hydrothermal method. The NiCoMn-S/Ti3C2 composites showed enhanced specific capacity and conductivity for hybrid supercapacitors, with improved charge-transfer resistance and increased specific energy.
JOURNAL OF SOLID STATE CHEMISTRY
(2022)
Article
Materials Science, Multidisciplinary
Ziyao Bian et al.
Summary: A simple and green process was developed to produce CoS2/C materials, showing multiple advantages for supercapacitors such as high specific surface area, specific capacitance, and improved conductivity. The CoS2/C materials demonstrated significantly improved specific capacitance and excellent rate capability under high currents, with an ultrahigh capacitance retention rate.
Article
Materials Science, Multidisciplinary
Zhuo Cai et al.
Summary: This study successfully engineered MXene/HG electrodes with unimpeded ion transport channels by adjusting the size of MXene flakes and introducing holey graphene nanosheets, leading to improved performance of supercapacitors.
Article
Materials Science, Multidisciplinary
Ji-Qiu Qi et al.
Summary: In this study, ZnCo2S4 core-shell nanospheres were synthesized using a two-step hydrothermal method and were then modified with MXene nanosheets to enhance their surface area. The MXene-wrapped ZnCo2S4 composite exhibited fast ion transfer rate and high capacity, making it promising for electrochemical energy storage applications.
Article
Energy & Fuels
Jing Pan et al.
Summary: Design and synthesis of a novel core-shell structured composite material has been demonstrated, showing excellent electrochemical properties and cycling stability in energy storage.
JOURNAL OF ENERGY STORAGE
(2022)
Article
Chemistry, Physical
Khadija Tul Kubra et al.
Summary: In this study, a novel quaternary composite based on 2D metal dichalcogenide was synthesized and demonstrated excellent electrochemical performance including superior capacitance, energy, power, and cycling stability.
JOURNAL OF ALLOYS AND COMPOUNDS
(2022)
Article
Chemistry, Physical
Xiaokun Wang et al.
Summary: The study successfully synthesized bimetal sulfide Ni/Mn-S and found that it has higher specific capacitance and cycle rate performance. Moreover, an asymmetric supercapacitor was successfully assembled using Ni/Mn-S as the positive electrode and activated carbon as the negative electrode.
JOURNAL OF POWER SOURCES
(2022)
Article
Energy & Fuels
Damin Lee et al.
Summary: Binder-free porous multi-phase electrodes can be grown on Ni foam substrates using a hydrothermal method. They exhibit high electrical conductivities and good ion transport abilities, making them attractive for high-performance energy storage systems. These adjustable high-performance electrodes can be used to develop new energy storage applications.
JOURNAL OF ENERGY STORAGE
(2022)
Article
Electrochemistry
Xi Zhu et al.
Summary: This work successfully synthesized hollow CuCo2S4 using a low-cost commercial Al2O3 as a hard template and introduced S-vacancies to enhance electronic conductivity. Hollow CuCo2S4 demonstrated a larger specific surface area compared to CuCo2S4 without the template. The hollow CuCo2S4 electrode exhibited favorable capacity, rate, and cycling performance, while the hollow CuCo2S4//AC hybrid supercapacitor showed high energy density, power density, and good stability.
ELECTROCHIMICA ACTA
(2022)
Article
Engineering, Electrical & Electronic
Lulu Hu et al.
Summary: In this study, a quaternary transition metal sulfide Cu2MnSnS4 (CMTS) with a unique nanostructure was synthesized, showing exceptional electrochemical performance and great potential for applications.
JOURNAL OF ELECTRONIC MATERIALS
(2022)
Article
Chemistry, Physical
Minghai Yao et al.
Summary: In this study, a NiCo2S4@CNT composite electrode was developed and lightweight, flexible, self-standing NiCo2S4@CNT/CNT hybrid film electrodes were fabricated. The hybrid film showed high energy storage capacity and good cycling stability, making it promising for practical applications in load-leveling wearable equipment.
JOURNAL OF POWER SOURCES
(2022)
Review
Energy & Fuels
Susmi Anna Thomas et al.
Summary: This article thoroughly discusses the research on MXenes and their hybrids with other materials in the field of supercapacitor applications, including their fundamental properties, synthesis strategies, and etching procedures. It also focuses on the current developments, challenges, and future perspectives, as well as the research gap in this field.
JOURNAL OF ENERGY STORAGE
(2022)
Article
Chemistry, Physical
Du Huang et al.
Summary: In this study, NiCo2O4 nanoflowers with high specific surface area were prepared on nickel foam and used as cathode and anode for a flexible asymmetric supercapacitor. The hierarchical structured electrodes provided sufficient redox sites and channels for ion and electron transport. Furthermore, the performance of NiCo2S4/PPy as an anode was investigated for the first time, showing good cycling stability and specific capacitance.
APPLIED SURFACE SCIENCE
(2022)
Article
Electrochemistry
Mahmoud A. M. Elsaid et al.
Summary: Battery-type electrode materials have been developed as potential electrode materials for high-performance supercapacitors. A novel nano coral-reef ZnFeNiCo2S4 quaternary sulfide was synthesized and applied as an electrode material, showing promising electrochemical characteristics. Asymmetric supercapacitors exhibited high capacity retention and coulombic efficiency even after multiple cycles.
ELECTROCHIMICA ACTA
(2022)
Article
Chemistry, Physical
Mingzhao Li et al.
Summary: In this study, hollow manganese-cobalt-nickel sulfide nanotube arrays with specific pore diameter were synthesized, and a chemical reduction strategy was used to establish hollow trimetallic electrode materials. Introducing sulfur vacancies successfully improved the electrochemical performance of the electrode, demonstrating promising applications in electrochemical energy storage fields with high energy density and power density.
APPLIED SURFACE SCIENCE
(2021)
Article
Chemistry, Multidisciplinary
Jie Yang et al.
Summary: This study systematically investigated the potential window of aqueous zinc-ion hybrid supercapacitors based on commercial activated carbon, demonstrating their high performance characteristics including high specific capacitance and energy density, with broad prospects for future application.
Article
Electrochemistry
Wen Shang et al.
Summary: The study synthesized nano-structured composite materials of Ni3S2/MnS2 at carbon through one-step carbonization and vulcanization, controlling the morphology of the composites. The nanocomposite material has a porous structure that exposes more active sites and facilitates the rapid transfer of electrolyte ions, showing excellent electrochemical performance in supercapacitors.
ELECTROCHIMICA ACTA
(2021)
Article
Electrochemistry
Nashaat Ahmed et al.
Summary: This study presents a one-pot electrodeposition method for Mn-Ni-Co-S binder-free nanosheets on carbon cloth as a flexible substrate, which exhibit unique specific capacity with excellent stability and energy density.
ELECTROCHIMICA ACTA
(2021)
Article
Engineering, Environmental
Shital B. Kale et al.
Summary: The amorphous (Co-Mn)S tailored into nanosheets and deposited on stainless steel substrates showed high efficiency and stability as an electrocatalyst for oxygen evolution reaction. By tuning the composition stoichiometrically, the electrocatalytic activity and OER performance were effectively enhanced, resulting in high current density at low overpotential. With the benefits of redox chemical properties and binder-free deposition, the (Co3Mn2)S thin film electrocatalyst achieved promising OER performance and stability, making it a candidate for large-scale applications.
CHEMICAL ENGINEERING JOURNAL
(2021)
Article
Engineering, Environmental
Jianghang Cao et al.
Summary: By controlling the manganese composition in nickel-cobalt-manganese sulfide, the electrons of cobalt can be activated and the affinity with electrolyte ions can be enhanced, leading to improved electrochemical activity and rate performance. Furthermore, the manganese and nickel compositions greatly enhance the charge storage activity of the sulfide, while the nickel composition improves the rate performance.
CHEMICAL ENGINEERING JOURNAL
(2021)
Article
Chemistry, Physical
S. M. Pawar et al.
Summary: This study presents a transition-metal (Mo, Fe)-codoped nickel phosphide (Ni3P:FeMo) bifunctional catalyst for enhanced overall water splitting in an alkaline medium. The catalyst showed outstanding electrocatalytic performance for both the hydrogen evolution reaction and oxygen evolution reaction, with low overpotentials and fast electrocatalytic kinetics.
ACS APPLIED ENERGY MATERIALS
(2021)
Article
Chemistry, Analytical
Wending Zhou et al.
Summary: The study successfully improved the capacitance performance by loading CuS nanoflake arrays on the surface of carbon cloth, showing that CuS/CC-4 has good specific capacity and cycle stability under favorable microstructure; in addition, the assembled asymmetric flexible supercapacitor has high energy density and outstanding cycle stability.
JOURNAL OF ELECTROANALYTICAL CHEMISTRY
(2021)
Article
Materials Science, Multidisciplinary
Mehdi Farzi et al.
Summary: The In2S3 and its derivatives prepared through a facial solvothermal method exhibit excellent capacitive performance, with CdCIS showing a significant increase in specific capacitance. The CdCIS composite demonstrates high power and energy densities, as well as long-term cycling stability, indicating its potential for use in high-performance electrochemical capacitors.
Article
Engineering, Environmental
Peng Sun et al.
CHEMICAL ENGINEERING JOURNAL
(2020)
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CHEMICAL ENGINEERING JOURNAL
(2020)
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(2020)
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Dasha Kumar Kulurumotlakatla et al.
JOURNAL OF ENERGY STORAGE
(2020)
Review
Chemistry, Physical
Jie Liang et al.
JOURNAL OF MATERIALS CHEMISTRY A
(2020)
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Chemistry, Multidisciplinary
Guanjie He et al.
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Electrochemistry
Linrui Hou et al.
ELECTROCHIMICA ACTA
(2016)
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Rui Li et al.
JOURNAL OF POWER SOURCES
(2016)