Significant Electrode of Supercapattery Devices: the Induced Charge Storage Capability of MoSe2/rGO Nanosheets Bedecked by MnO2 Nanorod Composites DOI
Rajesh Kumar,

R. Thangappan

Langmuir, Год журнала: 2025, Номер unknown

Опубликована: Апрель 11, 2025

This work emphasizes the procedure with three stages, including a forthright hydrothermal technique for synthesizing composite material of layered MoSe2/rGO and MnO2 nanorods. The developed electrodes explicitly show supercapacitor battery storage capability (i.e., supercapattery), unveiling higher operating potential value energy density. is mainly attributed to structure high surface-to-volume ratio 2D nanosheets, which provide rapid charge aptitudes, enormous active sites, decreased electronic/ionic resistance, rich electron transfer characteristics. MnO2/MoSe2/rGO has an optimum surface area (78.24 m2 g-1) immense microspore (12.9 nm), due construction MoSe2 rGO nanosheets. robust electrochemical characteristics, achieving 950 F g-1 specific capacitance at 1 A current density demonstrating cyclic stability 90% after 10,000 continuous cycles. In addition, asymmetric supercapattery device AC//MnO2/MoSe2/rGO showcased capacity 85.1 153.18 C g-1, as well achieved power 30.2 W h/kg 807 W/kg in 1.8 V. Also, real-time practical tested using two distinct varieties light-emitting diodes offered effective discharge time 14 min. enriched performances composites extensive features may have expanded realm modern materials.

Язык: Английский

Frontiers of MXenes-based hybrid materials for energy storage and conversion applications DOI Creative Commons

Md. Yasir Bhat,

Waheed A. Adeosun,

Kaitlyn Prenger

и другие.

Advanced Composites and Hybrid Materials, Год журнала: 2024, Номер 8(1)

Опубликована: Дек. 17, 2024

Since their breakthrough in 2011, MXenes, transition metal carbides, and/or nitrides have been studied extensively. This large family of two-dimensional materials has shown enormous potential as electrode for different applications including catalysis, energy storage, and conversion. MXenes are suitable the aforementioned due to high electrical conductivity, tunable surface chemistry, area, layered structure, flexural property, hydrophilicity amongst others. article aims cover development MXene/hybrid structures computational insight, synthesis techniques, structural morphology, properties, conversion storage devices. Several approaches adopted develop MXene hybrids, such modifying traditional by decorating surfaces, intercalating, in-situ fabrication, target electrochemical performance. In addition, this review concisely uniquely presented recent advances application hybrid battery design, clean hydrogen fuel generation, carbon dioxide reduction, other relevant reactions. Finally, latest trends prospects also summarized.

Язык: Английский

Процитировано

4
Significant Electrode of Supercapattery Devices: the Induced Charge Storage Capability of MoSe2/rGO Nanosheets Bedecked by MnO2 Nanorod Composites DOI
Rajesh Kumar,

R. Thangappan

Langmuir, Год журнала: 2025, Номер unknown

Опубликована: Апрель 11, 2025

This work emphasizes the procedure with three stages, including a forthright hydrothermal technique for synthesizing composite material of layered MoSe2/rGO and MnO2 nanorods. The developed electrodes explicitly show supercapacitor battery storage capability (i.e., supercapattery), unveiling higher operating potential value energy density. is mainly attributed to structure high surface-to-volume ratio 2D nanosheets, which provide rapid charge aptitudes, enormous active sites, decreased electronic/ionic resistance, rich electron transfer characteristics. MnO2/MoSe2/rGO has an optimum surface area (78.24 m2 g-1) immense microspore (12.9 nm), due construction MoSe2 rGO nanosheets. robust electrochemical characteristics, achieving 950 F g-1 specific capacitance at 1 A current density demonstrating cyclic stability 90% after 10,000 continuous cycles. In addition, asymmetric supercapattery device AC//MnO2/MoSe2/rGO showcased capacity 85.1 153.18 C g-1, as well achieved power 30.2 W h/kg 807 W/kg in 1.8 V. Also, real-time practical tested using two distinct varieties light-emitting diodes offered effective discharge time 14 min. enriched performances composites extensive features may have expanded realm modern materials.

Язык: Английский

Процитировано

0