Q1 Research Application · Frontier Focus

In-situ carbon-coating coupled with microwave-assisted hydrothermal synthesis of lithium manganese iron phosphate cathode material

This Journal of Power Sources paper (2025) is indexed as a Xianghu equipment application case for XH-800SP; key result: Capacity retention 95.12%.

Paper ID 660
Application Focus lithium-ion battery, LMFP/C, microwave hydrothermal
Key Result Capacity retention 95.12%
Core Condition Temperature 700 °C
Paper ID
660
Journal
Journal of Power Sources
Impact Factor
11.2
CAS Zone
Zone 1
Year
2025
Equipment Model
XH-800SP
Affiliations
Central South University
Research Directions
lithium-ion battery LMFP/C microwave hydrothermal

Fact Snapshot

  • Paper: In-situ carbon-coating coupled with microwave-assisted hydrothermal synthesis of lithium manganese iron phosphate cathode material
  • Equipment: XH-800SP
  • Source: Journal of Power Sources, 2025
  • Research direction: lithium-ion battery, LMFP/C, and microwave hydrothermal
  • Core conditions: Temperature 700 °C and Time 15 min / 1 h
  • Key results: Capacity retention 95.12%, Capacity retention 97.01%, and Cycle retention 95.12%

Research Abstract

In-situ carbon-coating coupled with microwave-assisted hydrothermal synthesis of lithium manganese iron phosphate cathode material was published in Journal of Power Sources (2025) and is indexed as a Xianghu Q1 application case for XH-800SP. The structured source links this paper to lithium-ion battery, LMFP/C, and microwave hydrothermal. Core operating conditions include Temperature 700 °C and Time 15 min / 1 h. Key reported results include Capacity retention 95.12%, Capacity retention 97.01%, and Cycle retention 95.12%. The DOI recorded for this paper is 10.1016/j.jpowsour.2025.237476.

Research Background and Problem

The paper is positioned around lithium-ion battery, LMFP/C, and microwave hydrothermal. The equipment record identifies XH-800SP as the Xianghu instrument context for this application case. The source affiliation record includes Central South University.

Equipment Use and Experimental Conditions

ItemParameter
Temperature700 °C
Time15 min / 1 h

Key Result

Capacity retention 95.12%
Capacity retention 97.01%
Discharge capacity 131.1 mAh g-1
MetricResult
Capacity retention95.12%
Capacity retention97.01%
Discharge capacity131.1 mAh g-1

Evidence Details

Equipment evidence

The solution was then transferred to a 100 mL microwave hydrothermal reaction kettle and processed in a microwave hydrothermal parallel synthesizer (Xiang hu XH-800SP) under different conditions detailed in Table S1.

Microwave-method evidence

Microwave-method evidence: source values include 700 °C, 1 h.

Abstract evidence

Under the optimized condition, the synthesized LiMn0.5Fe0.5PO4/C shows high-rate performance (116.4 mAh⋅g−1 at 10C) and good cycling stability (131.1 mAh⋅g−1 discharge capacity at 1C with a capacity retention rate of 95.12 % after 150 cycles).

Source evidence

Nanorod-like LMFP/C materials were rapidly synthesized within 15 min.

Additional source evidence

Additional source evidence: source values include 15 min, 97.01%. Entities: LMFP-5-220-15.

Additional source evidence

Additional source evidence: source values include 220 °C, 15 min.

Mechanism / Method Highlights

  • Method context: Temperature 700 °C and Time 15 min / 1 h.
  • Equipment evidence: The solution was then transferred to a 100 mL microwave hydrothermal reaction kettle and processed in a microwave hydrothermal parallel synthesizer (Xiang hu XH-800SP) under different conditions detailed in Table S1
  • Microwave-method evidence: source values include 700 °C, 1 h
  • Abstract evidence: Under the optimized condition, the synthesized LiMn0.5Fe0.5PO4/C shows high-rate performance (116.4 mAh⋅g−1 at 10C) and good cycling stability (131.1 mAh⋅g−1 discharge capacity at 1C with a capacity retention rate of 95.12 % after 150 cycles)
  • Reported outcome: Capacity retention 95.12%, Capacity retention 97.01%, Cycle retention 95.12%, and Discharge capacity 131.1 mAh g-1.

Application Value

  • Positions XH-800SP in a peer-reviewed Q1 research application.
  • Highlights quantitative evidence: Capacity retention 95.12%, Capacity retention 97.01%, and Cycle retention 95.12%.
  • Records source affiliations: Central South 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 lithium-ion battery, LMFP/C, and microwave hydrothermal.
Which publication does this case come from?
It comes from Journal of Power Sources (2025), DOI 10.1016/j.jpowsour.2025.237476.
Citation
In-situ carbon-coating coupled with microwave-assisted hydrothermal synthesis of lithium manganese iron phosphate cathode material
Journal of Power Sources, 2025
DOI: 10.1016/j.jpowsour.2025.237476