Tuning Interfacial Properties by Spontaneously Generated Organic Interlayers in Top‐Contact‐Structured Organic Transistors

Adv. Funct. Mater. 2020, 30, 2002979 In the originally published version of article, authors did not fully acknowledge existing study reported by Frey group. Since studies in group are highly similar to our results, reviews or references those need be updated article. The apologize for any inconvenience this error may have caused. Added Sentences Introduction Section However, approach is also easy use due its and disadvantage that it can only applied bottom-contact-structured OFET devices. For reason, there few relevant on interfacial optimization top-contact devices until now. Recently, an spontaneous modification electrodes organic electronic blending additives polymer active layer migrate reduce contact resistance.[38,39] More specifically, OFETs they hexa(ethyleneglycol)-dithiol 4-fluorobenzyl mercaptan as thiol additives, demonstrated possible efficiently control interface between top-contacted source/drain electrode level RC simply adding semiconducting layer. This interesting result field control, but a side was sufficiently considered: aspect doping blended molecules. [38] T. Sarkar, B. Shamieh, R. Verbeek, A. J. Kronemeijer, G. H. Gelinck, L. Frey, 1805617. [39] Vinokur, I. Deckman, Nouzman, Mater, 2018, 1706803. Modified (page 2) Here, we explored spontaneously controlling interfaces S/D without effect presence resulting improved charge carrier injection properties films. Deleted Sentence Results Discussion 8) Although known important improving device performances, because no suitable experimental method has been proposed