The review traces GaN electrodes from porous structures to carbon hybrids and doped systems, highlighting gains in capacitance, power delivery and cycling. Reported records remain difficult to compare because units, test configurations and device scales vary across studies.
Key findings
- The review traces GaN electrodes from porous structures to carbon hybrids and doped systems, highlighting gains in capacitance, power delivery and cycling. Reported records remain difficult to compare because units, test configurations and device scales vary across studies.
Why this matters globally
This work adds internationally comparable evidence in Engineering and defines questions for replication in other populations or systems. Its global value lies in the evidence and transferable reasoning, not in a single impact score.
Thai researcher contribution
Thailand-linked authors and Chulalongkorn University contribute to the research network behind this work. Thai participation is identified from bibliographic affiliations and should be checked against the author list and source article.
Limitations to consider
Conclusions inherit the quality, definitions and completeness of included studies; heterogeneity and publication bias can distort pooled impressions.
Verify the original sources
SmallRead the original article↗DOI: 10.1002/smll.72944