641 to 650 of 661 Results
Aug 3, 2022 -
The Radical Anion, Dianion and Electron Transport Properties of Tetraiodo-Tetraazapentacene [Data]
ZIP Archive - 760.8 KB -
MD5: 472e9176609b60b2690ea39d8b9af22d
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Aug 3, 2022 -
The Radical Anion, Dianion and Electron Transport Properties of Tetraiodo-Tetraazapentacene [Data]
Plain Text - 661 B -
MD5: cf8a4c1ae75eb97f82dd4fa6ef2f94c1
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Jul 5, 2022
Bojanowski, N. Maximilian; Huck, Christian; Veith, Lisa; Strunk, Karl-Philipp; Bäuerle, Rainer; Melzer, Christian; Freudenberg, Jan; Wacker, Irene; Schröder, Rasmus R.; Tegeder, Petra; Bunz, Uwe H. F., 2022, "Electron-beam lithography of cinnamate polythiophene films: conductive nanorods for electronic applications [Data]", https://doi.org/10.11588/data/ZJAT9A, heiDATA, V1
Research Data associated with the related publication. Synthesis and characterization of cinnamate substituted polythiophene (P3ZT). Cross linkage via UV and electron beam radiation; network formation in thin films controlled by infrared spectroscopy and film retention experiment... |
Jul 5, 2022 -
Electron-beam lithography of cinnamate polythiophene films: conductive nanorods for electronic applications [Data]
ZIP Archive - 22.6 MB -
MD5: 2f4a09b657148281625db9e6d5bad370
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Jun 30, 2022
Maier, Steffen, 2022, "A Stable Hexaazaoctacene Cruciform σ-Dimer [Data]", https://doi.org/10.11588/data/FABJEI, heiDATA, V1
Buchwald‐Hartwig coupling of a triisopropylsilyl (TIPS)‐ethynylated dibromo‐N,N'‐dihydrotetraazapentacene with 1,4‐bis(TIPS‐ethynyl)‐2,3‐diaminonaphthalene furnishes a dihydrohexaazaoctacene. Its oxidation with MnO2 results in a 7,7'‐bi(hexaazaoctacenyl). In addition to eight TIP... |
Jun 30, 2022 -
A Stable Hexaazaoctacene Cruciform σ-Dimer [Data]
ZIP Archive - 207.1 MB -
MD5: 4b0c7cc5a7f5e1496b3a5ab8f6fea88a
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May 2, 2022
Ehjeij, Daniel; Hengge, Michael; Hänsch, Paul; Benneckendorf, Frank S.; Freudenberg, Jan; Bunz, Uwe H. F. Bunz; Müllen, Klaus; List-Kratochvil, Emil J. W.; Hermerschmidt, Felix, 2022, "Crosslinking Super Yellow to produce Super OLEDs: Crosslinking with Azides Enables Improved Performance [Data]", https://doi.org/10.11588/data/K7GEM8, heiDATA, V1
An increasing number of organic light-emitting diodes (OLEDs) is nowadays based on the use of polymers as the emissive material. For this material class in particular, solution-processing of the OLEDs has gained traction in both research and industry. However, in order to access... |
May 2, 2022 -
Crosslinking Super Yellow to produce Super OLEDs: Crosslinking with Azides Enables Improved Performance [Data]
Plain Text - 96.0 KB -
MD5: d4f9f57496372bac80127b56ade53ff4
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May 2, 2022 -
Crosslinking Super Yellow to produce Super OLEDs: Crosslinking with Azides Enables Improved Performance [Data]
Plain Text - 96.0 KB -
MD5: b6944137fec9ee00db0bf6af31283729
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May 2, 2022 -
Crosslinking Super Yellow to produce Super OLEDs: Crosslinking with Azides Enables Improved Performance [Data]
Plain Text - 69.3 KB -
MD5: 74ab9e4333501ea31dddbc193a52e63a
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