New Paper available at Nature Communications

New Paper available at Nature Communications, volume 17, Article number: 5464 (2026): “Highly disordered nanoporous carbons for enhanced energy storage in supercapacitors”. DOI: 10.1038/s41467-026-71520-x. This study provides clear design principles for creating high-performance nanoporous carbons for supercapacitors.

Abstract:
There has been a lack of clear principles for designing nanoporous carbons with enhanced performance in supercapacitors due to their structural complexity. Our recent NMR and Raman spectroscopy studies of a series of commercial nanoporous carbons show that carbons with smaller graphene-like domains have higher capacitance. In this study, we demonstrate that low-temperature synthesis provides a promising route for producing highly disordered nanoporous carbons with enhanced gravimetric and volumetric capacitance. NMR spectroscopy measurements provide unique insights by simultaneously probing local structural order and ion adsorption capacities, revealing that carbons with smaller graphene-like domain sizes and higher ion adsorption capacities generally have better capacitive performance. We finally show that the capacitance of a nanoporous carbon can be predicted directly from the NMR spectra of electrolyte-soaked electrodes. Our findings provide a strategy that can be extended to various carbon precursors and synthesis routes for developing energy storage materials with enhanced capacitance.

Read the full article here

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