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Main Authors: Naeimi, Moha, Engster, Katharina, Barke, Ingo, Speller, Sylvia
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2404.14311
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author Naeimi, Moha
Engster, Katharina
Barke, Ingo
Speller, Sylvia
author_facet Naeimi, Moha
Engster, Katharina
Barke, Ingo
Speller, Sylvia
contents Crystallization of rubrene, progressing from an amorphous phase to a triclinic meta-stable and ultimately to the orthorhombic stable phase, offers broad applications not only in organic electronic devices but also for in-depth studies of optical and electronic properties, including exciton distribution and dynamics. We investigate the crystallization of rubrene on highly oriented pyrolytic graphite (HOPG), aiming at the growth of the preferred rubrene orthorhombic phase, which has been reported to have one of the highest charge mobilities in organic semiconductors. This is achieved through controlled heating and enhanced partial pressure. Through precise control of the initial deposition on the substrate, we investigate the growth habit of rubrene crystals by high-rate heat treatment beyond the second crystallization temperature. Furthermore, this work addresses thermal stability and photodegradation across various morphologies.
format Preprint
id arxiv_https___arxiv_org_abs_2404_14311
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Morphology and structural properties of thin rubrene crystallites grown on graphite
Naeimi, Moha
Engster, Katharina
Barke, Ingo
Speller, Sylvia
Materials Science
Applied Physics
Crystallization of rubrene, progressing from an amorphous phase to a triclinic meta-stable and ultimately to the orthorhombic stable phase, offers broad applications not only in organic electronic devices but also for in-depth studies of optical and electronic properties, including exciton distribution and dynamics. We investigate the crystallization of rubrene on highly oriented pyrolytic graphite (HOPG), aiming at the growth of the preferred rubrene orthorhombic phase, which has been reported to have one of the highest charge mobilities in organic semiconductors. This is achieved through controlled heating and enhanced partial pressure. Through precise control of the initial deposition on the substrate, we investigate the growth habit of rubrene crystals by high-rate heat treatment beyond the second crystallization temperature. Furthermore, this work addresses thermal stability and photodegradation across various morphologies.
title Morphology and structural properties of thin rubrene crystallites grown on graphite
topic Materials Science
Applied Physics
url https://arxiv.org/abs/2404.14311