2023
DOI: 10.1021/acs.langmuir.3c02637
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Hierarchical Mn3O4/NiSe2–MnSe2: A Versatile Electrode Material for High-Performance All-Solid-State Hybrid Pseudocapacitors with Supreme Working Durability

Siddhant Srivastav,
Shilpa Singh,
Sumanta Kumar Meher

Abstract: As highly efficient electrochemical energy storage devices are in indispensable demand for numerous modern-day technologies, herein sluggish precipitation followed by an anion exchange procedure has been developed to synthesize an oxide-selenide mixed phase (Mn3O4/NiSe2–MnSe2) novel electrode material with high surface area and porosity for high-performance all-solid-state hybrid pseudocapacitors (ASSHPC). Mn3O4/NiSe2–MnSe2 shows a rich Tyndall effect (in H2O) and possesses randomly arranged low-dimensional cr… Show more

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Cited by 8 publications
(9 citation statements)
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“…The chemical reactions that occur during the formation of NiO/MnCo 2 O 4 are depicted in the reaction set R1. ,,, During the precipitation reactions, NH 4 F acts as the surface-trapping and pH-controlling reagent. In the hydrothermal heating condition, NH 4 F decomposition leads to a decrease in the pH of the medium of reaction, which essentially regulates the kinetics of crystal growth and controls the surface physiognomies of the material. , .25ex2ex C 4 H 4 Na 2 O 6 160 ° normalC C 4 H 4 O 6 2 + 2 Na + Ni 2 + + 2 Co 2 + + Mn 2 + + 4 C 4 H 4 O 6 2 + n normalH 2 normalO 160 ° normalC / 24 normalh MnCo 2 false( C 4 H 4 O 6 false) 3 · n normalH 2 normalO + Ni ( normalC 4 normalH 4 normalO 6 ) · n normalH 2 normalO ...…”
Section: Resultsmentioning
confidence: 99%
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“…The chemical reactions that occur during the formation of NiO/MnCo 2 O 4 are depicted in the reaction set R1. ,,, During the precipitation reactions, NH 4 F acts as the surface-trapping and pH-controlling reagent. In the hydrothermal heating condition, NH 4 F decomposition leads to a decrease in the pH of the medium of reaction, which essentially regulates the kinetics of crystal growth and controls the surface physiognomies of the material. , .25ex2ex C 4 H 4 Na 2 O 6 160 ° normalC C 4 H 4 O 6 2 + 2 Na + Ni 2 + + 2 Co 2 + + Mn 2 + + 4 C 4 H 4 O 6 2 + n normalH 2 normalO 160 ° normalC / 24 normalh MnCo 2 false( C 4 H 4 O 6 false) 3 · n normalH 2 normalO + Ni ( normalC 4 normalH 4 normalO 6 ) · n normalH 2 normalO ...…”
Section: Resultsmentioning
confidence: 99%
“…Various strategies are adopted in order to enhance the energy efficiency of supercapacitors; one such strategy involves the design of electrode materials with facilitated electroactive ions throughout the materials’ matrices, which increases the number of electrochemical reactions. The other approach involves the strategic elemental and chemical design of electrode materials such that more number of electroactive sites can be integrated in them . Such approaches facilitate more number of electrochemical reactions for enhanced charge storage, offer lowly impeded ion diffusion and electrode microstructure with ion-buffering pool alike physiognomies, which shorten the diffusion path-length of the ions in charge storage even during high rate reaction conditions.…”
Section: Introductionmentioning
confidence: 99%
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“…Further, cyclic stability of the supercapacitors is an existing challenge, which occurs due to (i) the microstructural degradation of the electrode materials arising due to the repeated insertion/deinsertion of the electroactive ions in the materials’ matrices during the charging/discharging for multiple cycles, (ii) possible electrochemical degradation of electrolytes during each charging/discharging cycle, and (iii) poor electrochemical reversibility of the electrode materials during charging/discharging of the devices . Among various supercapacitor devices, pseudocapacitors possess the advantage of higher energy delivery efficiency due to the faster redox kinetics and the presence of multiredox active species in the electrode materials. Therefore, to fabricate superior performance (superior Ragone and cyclic efficiency) pseudocapacitors, redox-active electrode materials offering more number redox reactions and high electrochemical reversibility are preferred. In this context, transition metal oxide materials with variable oxidation states and multiredox species have been extensively employed as electrode material in pseudocapacitors. , Among various such materials, oxides of Ni and Co in particular are significant owing to their tunable microstructure, significant electromicrostructural physiognomies, good electronic conductivity, and excellent chemical stability in basic electrolyte media .…”
Section: Introductionmentioning
confidence: 99%