High-performance Five-ring-fused Organic Semiconductors for Field-effect Transistors
Overview
Authors
Affiliations
Organic molecular semiconductors have been paid great attention due to their advantages of low-temperature processability, low fabrication cost, good flexibility, and excellent electronic properties. As a typical example of five-ring-fused organic semiconductors, a single crystal of pentacene shows a high mobility of up to 40 cm V s, indicating its potential application in organic electronics. However, the photo- and optical instabilities of pentacene make it unsuitable for commercial applications. But, molecular engineering, for both the five-ring-fused building block and side chains, has been performed to improve the stability of materials as well as maintain high mobility. Here, several groups (thiophenes, pyrroles, furans, ) are introduced to design and replace one or more benzene rings of pentacene and construct novel five-ring-fused organic semiconductors. In this review article, ∼500 five-ring-fused organic prototype molecules and their derivatives are summarized to provide a general understanding of this catalogue material for application in organic field-effect transistors. The results indicate that many five-ring-fused organic semiconductors can achieve high mobilities of more than 1 cm V s, and a hole mobility of up to 18.9 cm V s can be obtained, while an electron mobility of 27.8 cm V s can be achieved in five-ring-fused organic semiconductors. The HOMO-LUMO levels, the synthesis process, the molecular packing, and the side-chain engineering of five-ring-fused organic semiconductors are analyzed. The current problems, conclusions, and perspectives are also provided.
A comparative investigation on excimer fluorescence toward its bright future.
Wang S, Liu H, Zhao S, Wu Q, Yang Z, Yang D Chem Sci. 2025; 16(7):3275-3284.
PMID: 39840294 PMC: 11744815. DOI: 10.1039/d4sc08001g.
Optimal Synergy between Azulenes and Acenes in Azuacenes with 6-7-5 Ring Topology.
Huang F, Diaz-Fernandez M, Marin-Beloqui J, Sun L, Chen Y, Liu S J Am Chem Soc. 2025; 147(2):1574-1583.
PMID: 39772448 PMC: 11744744. DOI: 10.1021/jacs.4c11186.
Dialkylated dibenzo[,]anthracenes for solution-processable organic thin-film transistors.
Yang T, Zhang L, Bao Y, Wei H RSC Adv. 2024; 14(49):36390-36397.
PMID: 39545167 PMC: 11561707. DOI: 10.1039/d4ra07439d.
Tether-entangled conjugated helices.
Jin K, Xiao Z, Xie H, Shen X, Wang J, Chen X Chem Sci. 2024; .
PMID: 39355229 PMC: 11440437. DOI: 10.1039/d4sc04796f.
Hetero-polycyclic aromatic systems: A data-driven investigation of structure-property relationships.
Chakraborty S, Mayo Yanes E, Gershoni-Poranne R Beilstein J Org Chem. 2024; 20:1817-1830.
PMID: 39109296 PMC: 11301039. DOI: 10.3762/bjoc.20.160.