Q1 Research Application · Frontier Focus

Hierarchical Mo-doped Ni-Co Hydroxides Cauliflower-like Microspheres via a Rapid Microwave Hydrothermal Synthesis for Supercapacitors

This Journal of Energy Storage paper (2024) is indexed as a Xianghu equipment application case for XH-800SP; key result: Energy density 41.3 Wh kg-1.

Paper ID 601
Application Focus Microwave hydrothermal synthesis, Mo, Ni-Co
Key Result Energy density 41.3 Wh kg-1
Core Condition Temperature 190 °C / 190°C
Paper ID
601
Journal
Journal of Energy Storage
Impact Factor
9.8
CAS Zone
Zone 1
Year
2024
Equipment Model
XH-800SP
Affiliations
Institute of Advanced Optoelectronic Materials and Technology, College of Big Data and Information Engineering, Guizhou University
Research Directions
Microwave hydrothermal synthesis Mo Ni-Co

Fact Snapshot

  • Paper: Hierarchical Mo-doped Ni-Co Hydroxides Cauliflower-like Microspheres via a Rapid Microwave Hydrothermal Synthesis for Supercapacitors
  • Equipment: XH-800SP
  • Source: Journal of Energy Storage, 2024
  • Research direction: microwave hydrothermal synthesis, Mo, and Ni-Co
  • Core conditions: Temperature 190 °C / 190°C and Time 5 min
  • Key results: Energy density 41.3 Wh kg-1, Capacity retention 84%, and Power density 850 W kg-1

Research Abstract

Hierarchical Mo-doped Ni-Co Hydroxides Cauliflower-like Microspheres via a Rapid Microwave Hydrothermal Synthesis for Supercapacitors was published in Journal of Energy Storage (2024) and is indexed as a Xianghu Q1 application case for XH-800SP. The structured source links this paper to microwave hydrothermal synthesis, Mo, and Ni-Co. Core operating conditions include Temperature 190 °C / 190°C and Time 5 min. Key reported results include Energy density 41.3 Wh kg-1, Capacity retention 84%, and Power density 850 W kg-1. The DOI recorded for this paper is 10.1016/j.est.2023.110393.

Research Background and Problem

The paper is positioned around microwave hydrothermal synthesis, Mo, and Ni-Co. The equipment record identifies XH-800SP as the Xianghu instrument context for this application case. The source affiliation record includes Institute of Advanced Optoelectronic Materials and Technology, College of Big Data and Information Engineering, Guizhou University.

Equipment Use and Experimental Conditions

ItemParameter
Temperature190 °C / 190°C
Time5 min

Key Result

Energy density 41.3 Wh kg-1
Capacity retention 84%
Power density 850 W kg-1
Specific capacity 160.5 mAh g-1
MetricResult
Energy density41.3 Wh kg-1
Capacity retention84%
Power density850 W kg-1
Specific capacity160.5 mAh g-1
Specific capacity107.2 mAh g-1

Evidence Details

Equipment-detail evidence

Equipment-detail evidence: source values include 6H, 2H, 50 mL, 100 mL, 190°C, 5 min, 10°C, 60°C, 12 h. Entities: XH-800SP, Mo-x.

Energy-comparison evidence

Energy-comparison evidence: source values include 2450 MHz, 190°C, 5 min.

Equipment-detail evidence

Equipment-detail evidence: source values include 2:1.

Source evidence

"a hybrid supercapacitor assembled with NiCoDH-Mo cathode and mango seed-derived activated carbon anode exhibited excellent energy density, power density, and cycling stability... with an energy density of 41.3 Wh kg-1 at a power density of 850 W kg-1, which also exhibits a capacity retention of 84% after 8000 cycles."

Source evidence

"when the current density increases from 1 A g-1 to 20 A g-1, the specific capacitance of the NiCoDH-Mo0.50 electrode decreases from 160.5 mAh g-1 to 115.3 mAh g-1, with a rate performance of up to 71.8%."

Mechanism / Method Highlights

  • Method context: Temperature 190 °C / 190°C and Time 5 min.
  • Equipment-detail evidence: source values include 6H, 2H, 50 mL, 100 mL, 190°C, 5 min, 10°C, 60°C, 12 h. Entities: XH-800SP, Mo-x
  • Energy-comparison evidence: source values include 2450 MHz, 190°C, 5 min
  • Equipment-detail evidence: source values include 2:1
  • Reported outcome: Energy density 41.3 Wh kg-1, Capacity retention 84%, Power density 850 W kg-1, and Specific capacity 160.5 mAh g-1.

Application Value

  • Positions XH-800SP in a peer-reviewed Q1 research application.
  • Highlights quantitative evidence: Energy density 41.3 Wh kg-1, Capacity retention 84%, and Power density 850 W kg-1.
  • Records source affiliations: Institute of Advanced Optoelectronic Materials and Technology, College of Big Data and Information Engineering, Guizhou University.

Related Equipment

FAQ

Which Xianghu instrument is covered by this page?
The structured source records XH-800SP for this paper.
What is the main application direction?
The source tags this paper under microwave hydrothermal synthesis, Mo, and Ni-Co.
Which publication does this case come from?
It comes from Journal of Energy Storage (2024), DOI 10.1016/j.est.2023.110393.
Citation
Hierarchical Mo-doped Ni-Co Hydroxides Cauliflower-like Microspheres via a Rapid Microwave Hydrothermal Synthesis for Supercapacitors
Journal of Energy Storage, 2024
DOI: 10.1016/j.est.2023.110393