Design and Fabrication of 2D Hybrid Materials
Grant number: DP200101217 | Funding period: 2020 - 2023
Related publications (8)
Energy Interplay in Materials: Unlocking Next-Generation Synchronous Multisource Energy Conversion with Layered 2D Crystals
Alexander Corletto, Amanda V Ellis, Nick A Shepelin, Marco Fronzi, David A Winkler, Joseph G Shapter, Peter C Sherrell
Layered 2D crystals have unique properties and rich chemical and electronic diversity, with over 6000 2D crystals known and, in pr..
High-Resolution R2R-Compatible Printing of Carbon Nanotube Conductive Patterns Enabled by Cellulose Nanocrystals
Alexander Corletto, Alireza Hosseinmardi, Pratheep Kumar Annamalai, Darren J Martin, Joseph G Shapter
Carbon nanotubes (CNTs) with enhanced properties compared to conventional materials are a leading material of choice for fabricati..
A bright future for engineering piezoelectric 2D crystals
Peter C Sherrell, Marco Fronzi, Nick A Shepelin, Alexander Corletto, David A Winkler, Mike Ford, Joseph G Shapter, Amanda V Ellis
The piezoelectric effect, mechanical-to-electrical and electrical-to-mechanical energy conversion, is highly beneficial for functi..
Discontinuous Dewetting, Template-Guided Self-Assembly, and Liquid Bridge-Transfer Printing of High-Resolution Single-Walled Carbon Nanotube Lines for Next-Generation Electrodes and Interconnects
Alexander Corletto, Joseph G Shapter
A template-guided, self-assembly patterning technique called discontinuous dewetting (DD) and liquid bridge transfer (LBT) was app..