SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4387613471> ?p ?o ?g. }

Showing items 1 to 100 of ±153 with 100 items per page.

W4387613471 abstract "Organic semiconductors (OSCs) have attracted rapidly growing interest given their potential to create innovative optoelectronic applications. One major drawback is the sensitivity of the electrical properties to the presence of impurities in the OSC film: even small traces can significantly alter the properties of the OSC layer by introducing electronic trapping states, leading to efficiency losses and degraded charge carrier mobility. Since impurities can be introduced at many stages of device fabrication, from synthetic impurities to process solvents to the lining on syringes used to deposit solutions, identifying device structures that are more tolerant of their presence is necessary. Here, we employ a data-driven device design, wherein simulations are combined with experiment to reveal organic field-effect transistor (OFET) geometries that enable the use of lower standards of semiconductor purity without impacting the performance. The phenomenon is attributed to how the filling of trap states is modulated by the gate potential. Guided by the simulation results, we were able to recover the performance of a pure device in OFETs with optimal geometry containing 2% known impurity. These results provide a pathway for developing high-performance organic devices at a lower cost by adopting a device architecture that is more tolerant of defects.." @default.
W4387613471 created "2023-10-14" @default.
W4387613471 creator A5039477221 @default.
W4387613471 creator A5048297522 @default.
W4387613471 creator A5049816813 @default.
W4387613471 creator A5049912304 @default.
W4387613471 creator A5075817966 @default.
W4387613471 creator A5077369810 @default.
W4387613471 date "2023-10-13" @default.
W4387613471 modified "2023-10-15" @default.
W4387613471 title "Pathway to Increase the Tolerance of Organic Transistors to Semiconductor Purity" @default.
W4387613471 cites W1568282481 @default.
W4387613471 cites W1590237516 @default.
W4387613471 cites W1881548054 @default.
W4387613471 cites W1964670461 @default.
W4387613471 cites W1976666926 @default.
W4387613471 cites W1981441032 @default.
W4387613471 cites W1993953001 @default.
W4387613471 cites W1994227483 @default.
W4387613471 cites W1998118374 @default.
W4387613471 cites W2016203866 @default.
W4387613471 cites W2020051588 @default.
W4387613471 cites W2024424555 @default.
W4387613471 cites W2025025141 @default.
W4387613471 cites W2032954808 @default.
W4387613471 cites W2036531934 @default.
W4387613471 cites W2037166716 @default.
W4387613471 cites W2049475575 @default.
W4387613471 cites W2051031902 @default.
W4387613471 cites W2056881087 @default.
W4387613471 cites W2067649421 @default.
W4387613471 cites W2068712786 @default.
W4387613471 cites W2116983885 @default.
W4387613471 cites W2122339689 @default.
W4387613471 cites W2172667625 @default.
W4387613471 cites W2260925748 @default.
W4387613471 cites W2265708261 @default.
W4387613471 cites W2292449992 @default.
W4387613471 cites W2325120803 @default.
W4387613471 cites W2328346908 @default.
W4387613471 cites W2345824638 @default.
W4387613471 cites W2512156554 @default.
W4387613471 cites W2529774466 @default.
W4387613471 cites W2552147221 @default.
W4387613471 cites W2562523362 @default.
W4387613471 cites W2566193558 @default.
W4387613471 cites W2566799573 @default.
W4387613471 cites W2739127947 @default.
W4387613471 cites W2745115417 @default.
W4387613471 cites W2759739826 @default.
W4387613471 cites W2778076912 @default.
W4387613471 cites W2779338368 @default.
W4387613471 cites W2783321467 @default.
W4387613471 cites W2792141975 @default.
W4387613471 cites W2793428852 @default.
W4387613471 cites W2816115481 @default.
W4387613471 cites W2884199109 @default.
W4387613471 cites W2884581027 @default.
W4387613471 cites W2884791077 @default.
W4387613471 cites W2885513136 @default.
W4387613471 cites W2891302597 @default.
W4387613471 cites W2892065433 @default.
W4387613471 cites W2902933997 @default.
W4387613471 cites W2907903181 @default.
W4387613471 cites W2920474290 @default.
W4387613471 cites W2920907586 @default.
W4387613471 cites W2929102326 @default.
W4387613471 cites W2973375387 @default.
W4387613471 cites W2979840410 @default.
W4387613471 cites W2996551815 @default.
W4387613471 cites W2996794239 @default.
W4387613471 cites W3007186219 @default.
W4387613471 cites W3008351165 @default.
W4387613471 cites W3009085038 @default.
W4387613471 cites W3027876212 @default.
W4387613471 cites W3035402504 @default.
W4387613471 cites W3037513474 @default.
W4387613471 cites W3049191550 @default.
W4387613471 cites W3049205822 @default.
W4387613471 cites W3099638761 @default.
W4387613471 cites W3101430004 @default.
W4387613471 cites W3120149258 @default.
W4387613471 cites W3152921850 @default.
W4387613471 cites W3153615031 @default.
W4387613471 cites W3159454636 @default.
W4387613471 cites W4205879504 @default.
W4387613471 cites W4284886456 @default.
W4387613471 doi "https://doi.org/10.1021/acs.chemmater.3c01792" @default.
W4387613471 hasPublicationYear "2023" @default.
W4387613471 type Work @default.
W4387613471 citedByCount "0" @default.
W4387613471 crossrefType "journal-article" @default.
W4387613471 hasAuthorship W4387613471A5039477221 @default.
W4387613471 hasAuthorship W4387613471A5048297522 @default.
W4387613471 hasAuthorship W4387613471A5049816813 @default.
W4387613471 hasAuthorship W4387613471A5049912304 @default.
W4387613471 hasAuthorship W4387613471A5075817966 @default.
W4387613471 hasAuthorship W4387613471A5077369810 @default.
W4387613471 hasConcept C104232198 @default.
W4387613471 hasConcept C108225325 @default.