Accession Number : AD1043094


Title :   Arrays of Synthetic Atoms: Nanocapacitor Batteries with Large Energy Density and Small Leak Currents


Descriptive Note : Technical Report,23 Sep 2014,25 Sep 2017


Corporate Author : University of Illinois at Urbana-Champaign Urbana United States


Personal Author(s) : Hubler,Alfred


Full Text : https://apps.dtic.mil/dtic/tr/fulltext/u2/1043094.pdf


Report Date : 28 Nov 2017


Pagination or Media Count : 44


Abstract : We assembled nanocapacitors with large dielectric strength to a nanoscale rechargeable battery. We fabricated arrays of one-, two- and three-dimensional synthetic atoms and comparison of its performance data with theoretical predictions. We investigated recovery of alumina nanocapacitors after high-voltage breakdown. Previously we had discovered that Al2O3 nanocapacitors can self-repair. Recently we discovered that our newly fabricated SiO2nanocapacitors can self-repair. We found a significant reduction of leak currents and an increased dielectric strength due to coulomb blockade in nanocapacitors. On the theory side, we are making great progress. We computed the leak currents for synthetic atoms in one, and three dimensions. We filed several disclosures.


Descriptors :   capacitors , NANOTECHNOLOGY , dielectric strength , STORAGE BATTERIES , fabrication , ELECTRIC CURRENT , QUANTUM WELLS , BREAKDOWN (ELECTRONIC THRESHOLD) , high voltage


Subject Categories : Electrochemical Energy Storage


Distribution Statement : APPROVED FOR PUBLIC RELEASE