Superelastic Ti3C2TxMXene-Based Hybrid Aerogels for Compression-Resilient Devices
Version 2 2024-06-03, 06:35Version 2 2024-06-03, 06:35
Version 1 2021-03-01, 08:25Version 1 2021-03-01, 08:25
journal contribution
posted on 2024-06-03, 06:35 authored by D Jiang, Jizhen Zhang, Alex QinAlex Qin, Z Wang, Ken Aldren UsmanKen Aldren Usman, D Hegh, J Liu, Weiwei LeiWeiwei Lei, Joselito RazalJoselito RazalSuperelastic Ti3C2TxMXene-Based Hybrid Aerogels for Compression-Resilient Devices
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Alternative title
Superelastic Ti3C2TxMXene-Based Hybrid Aerogels for Compression-Resilient DevicesJournal
ACS NanoVolume
15Pagination
5000-5010Location
Washington, DCPublisher DOI
ISSN
1936-0851eISSN
1936-086XLanguage
EnglishPublication classification
C1 Refereed article in a scholarly journalIssue
3Publisher
American Chemical SocietyUsage metrics
Keywords
ChemistryChemistry, MultidisciplinaryChemistry, Physicalcompressible supercapacitorsMaterials ScienceMaterials Science, Multidisciplinarymultistep reductionMXene aerogelNanoscience & NanotechnologyPhysical Sciencespiezoresistance sensorScience & TechnologyScience & Technology - Other TopicssuperelasticTechnologyAustralian Research Council (DP190103290 and IH140100018)Australian National Fabrication Facility (ANFF) Victorian nodes at Deakin UniversitiesChina Scholarship Council (File No. 201606930013)Alfred Deakin Postdoctoral Research FellowshipInstitute for Frontier Materials4004 Chemical engineering4005 Civil engineering
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