Heterostructures formed through abraded van der Waals materials.

Autor: Nutting, Darren, Felix, Jorlandio F., Tillotson, Evan, Shin, Dong-Wook, De Sanctis, Adolfo, Chang, Hong, Cole, Nick, Russo, Saverio, Woodgate, Adam, Leontis, Ioannis, Fernández, Henry A., Craciun, Monica F., Haigh, Sarah J., Withers, Freddie
Předmět:
Zdroj: Nature Communications; 6/16/2020, Vol. 11 Issue 1, p1-10, 10p
Abstrakt: To fully exploit van der Waals materials and their vertically stacked heterostructures, new mass-scalable production routes which are low cost but preserve the high electronic and optical quality of the single crystals are required. Here, we demonstrate an approach to realise a variety of functional heterostructures based on van der Waals nanocrystal films produced through the mechanical abrasion of bulk powders. We find significant performance enhancements in abraded heterostructures compared to those fabricated through inkjet printing of nanocrystal dispersions. To highlight the simplicity, applicability and scalability of the device fabrication, we demonstrate a multitude of different functional heterostructures such as resistors, capacitors and photovoltaics. We also demonstrate the creation of energy harvesting devices, such as large area catalytically active coatings for the hydrogen evolution reaction and enhanced triboelectric nanogenerator performance in multilayer films. The ease of device production makes this a promising technological route for up-scalable films and heterostructures. Low-cost, mass-scalable production routes which preserve the quality of the single crystals are required to up-scale van der Waals materials. Here, the authors demonstrate an approach to realise a variety of functional heterostructures based on van der Waals nanocrystal films produced through the mechanical abrasion of bulk powders. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index