Journal article
StableTi3C2Tx MXene Ink Formulation and High‐Resolution Aerosol Jet Printing for High‐Performance MXene Supercapacitors (Small Methods 11/2025)
Small methods, v 9(11)
01 Nov 2025
Featured in Collection : Drexel's Newest Publications
Abstract
Inside Front Cover
In article number 2500499, Estrada and co‐workers report on the formulation of a chemically and physically stable Ti3C2Tx MXene ink compatible for aerosol‐jet printing. This ink enables high‐resolution printing of complex patterns on both curved and planar substrates. The printed High‐resolution MXene supercapacitors exhibit a high electrochemical performance, ranking among the highest for printed devices, and enabling scalable, on‐demand energy solutions. Image Credit: Alex Jerez.
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Details
- Title
- StableTi3C2Tx MXene Ink Formulation and High‐Resolution Aerosol Jet Printing for High‐Performance MXene Supercapacitors (Small Methods 11/2025)
- Creators
- Fereshteh Rajabi Kouchi - Boise State UniversityTony Valayil Varghese - Boise State UniversityHailey Burgoyne - Boise State UniversityNaqsh E Mansoor - Boise State UniversityMyeong‐Lok Seol - Universities Space Research AssociationNicholas McKibben - Boise State UniversityShruti Nirantar - Boise State UniversityKarthik Chinnathambi - Boise State UniversityJosh Eixenberger - Boise State UniversityOlivia Maryon - Boise State UniversityChristopher E Shuck - Rutgers, The State University of New JerseyYury Gogotsi - Drexel UniversityJessica E. Koehne - Universities Space Research AssociationDavid Estrada - Idaho National Laboratory
- Publication Details
- Small methods, v 9(11)
- Publisher
- Wiley
- Number of pages
- 1
- Resource Type
- Journal article
- Language
- English
- Academic Unit
- Materials Science and Engineering
- Other Identifier
- 991022133486904721