Content area
Abstract
By using ab initio simulations based on density functional theory and many‐body perturbation theory, a comprehensive analysis of the distinct optical signatures of various tellurene polymorphs and their associated unique anisotropic excitonic characteristics is presented. Despite the atomic thickness of these materials, these findings reveal that their optical absorbance reaches as high as 50% in the near‐infrared and visible range. This investigation highlights the exceptional potential of these 2D semiconducting materials in the development of ultra‐thin and flexible homo‐ and hetero‐junctions for solar light harvesting, achieving photoconversion efficiencies up to 19%, a performance level comparable to current silicon technologies.
Details
Subject
Title
Tellurene Polymorphs: A New Frontier for Solar Harvesting with Strong Exciton Anisotropy and High Optical Absorbance
Author
Grillo, Simone 1
; Postorino, Sara 1
; Palummo, Maurizia 1
; Pulci, Olivia 1
1 Department of Physics, University of Rome “Tor Vergata” and INFN, Rome, Italy
; Postorino, Sara 1
; Palummo, Maurizia 1
; Pulci, Olivia 1
1 Department of Physics, University of Rome “Tor Vergata” and INFN, Rome, Italy
Advanced Energy Materials; Weinheim
Volume
14
Issue
44
Publication year
2024
Publication date
Nov 2024
Section
Research Article
Place of publication
Weinheim
Country of publication
United States
Publication subject
ISSN
16146832
e-ISSN
16146840
Source type
Scholarly Journal
Language of publication
English
Document type
Journal Article
Publication history
Online publication date
2024-08-20
Milestone dates
2024-07-31 (Revised); 2024-02-08 (Received)
Publication history
First posting date
20 Aug 2024
ProQuest document ID
3131680203
Document URL
https://www.proquest.com/scholarly-journals/tellurene-polymorphs-new-frontier-solar/docview/3131680203/se-2?accountid=208611
Copyright
© 2024 Wiley‐VCH GmbH
Last updated
2024-11-22
Database
ProQuest One Academic