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25 results on '"Lee, Seon Baek"'

1. Low‐Temperature Alignment of Conjugated Polymers by Plasticizer‐Aided Physical Rubbing.

Author

Kim, Daegun, Lee, Seon Baek, Kim, Min‐Jae, Lee, Jiyun, Chung, Sein, Ok, Eunsol, Lee, Giwon, Min, Jiwoo, Cho, Kilwon, and Kang, Boseok

Subjects
*CONJUGATED polymers, *POLYMER films, *INTERMOLECULAR interactions, *CRITICAL temperature, *ORGANIC semiconductors, *HIGH temperatures
Abstract

Rubbing‐induced alignment of conjugated polymers is systematically investigated in terms of intra‐ and inter‐molecular interaction. Various polymer films with a broad range of polymer chain rigidity are rubbed, and the degree of polymer chain alignment is quantitatively characterized. The rubbing technique effectively aligns crystalline domains in conjugated polymer films when the temperature approaches the critical rubbing temperature (Trc$T_{\mathrm{r}}^{\mathrm{c}}$), at which the rearrangement and the slip of polymer chains are possible. A polymer with significant intra‐/inter‐molecular interactions exhibits higher Trc$T_{\mathrm{r}}^{\mathrm{c}}$, though quantitative analysis reveals an intermediately aligned state at temperature Tr′ lower than Trc$T_{\mathrm{r}}^{\mathrm{c}}$. This state originates from polymer chain aggregation in an amorphous domain. The intermediately aligned state can be controlled by plasticizer, which enables low‐temperature alignment of high‐mobility polymer film by reducing Tr′ to near 100 °C, increases the crystallinity, and improves the alignment effect at this state comparable to that of the completely aligned state obtained at extremely high temperatures. [ABSTRACT FROM AUTHOR]

Published
2023
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2. Observation of Weak Counterion Size Dependence of Thermoelectric Transport in Ion Exchange Doped Conducting Polymers Across a Wide Range of Conductivities

Author

Chen, Chen, primary, Jacobs, Ian E., additional, Kang, Keehoon, additional, Lin, Yue, additional, Jellett, Cameron, additional, Kang, Boseok, additional, Lee, Seon Baek, additional, Huang, Yuxuan, additional, BaloochQarai, Mohammad, additional, Ghosh, Raja, additional, Statz, Martin, additional, Wood, William, additional, Ren, Xinglong, additional, Tjhe, Dion, additional, Sun, Yuanhui, additional, She, Xiaojian, additional, Hu, Yuanyuan, additional, Jiang, Lang, additional, Spano, Frank C., additional, McCulloch, Iain, additional, and Sirringhaus, Henning, additional

Published
2023
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3. Single Atom Selenium Substitution‐Mediated P‐Type Doping in Polythiophenes toward High‐Performance Organic Electronics and Thermoelectrics

Author

Chen, Chen, primary, Jacobs, Ian E., additional, Jellett, Cameron, additional, Jiao, Xuechen, additional, Ponder, James F., additional, Kang, Boseok, additional, Lee, Seon Baek, additional, Huang, Yuxuan, additional, Zhang, Lu, additional, Statz, Martin, additional, Sun, Yuanhui, additional, Lin, Yue, additional, Kang, Keehoon, additional, She, Xiaojian, additional, Hu, Yuanyuan, additional, Zhang, Tao, additional, Jiang, Lang, additional, McNeill, Christopher R., additional, McCulloch, Iain, additional, and Sirringhaus, Henning, additional

Published
2022
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9. Anisotropy of Charge Transport in a Uniaxially Aligned Fused Electron‐Deficient Polymer Processed by Solution Shear Coating

Author

Xiao, Mingfei, primary, Kang, Boseok, additional, Lee, Seon Baek, additional, Perdigão, Luís M. A., additional, Luci, Alex, additional, Warr, Daniel A., additional, Senanayak, Satyaprasad P., additional, Nikolka, Mark, additional, Statz, Martin, additional, Wu, Yutian, additional, Sadhanala, Aditya, additional, Schott, Sam, additional, Carey, Remington, additional, Wang, Qijing, additional, Lee, Mijung, additional, Kim, Chaewon, additional, Onwubiko, Ada, additional, Jellett, Cameron, additional, Liao, Hailiang, additional, Yue, Wan, additional, Cho, Kilwon, additional, Costantini, Giovanni, additional, McCulloch, Iain, additional, and Sirringhaus, Henning, additional

Published
2020
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12. Unidirectional Macroscopic Alignment of Chlorobenzo[c]‐[1,2,5]thiadiazole‐Based Semiconducting Copolymers with Controlled Regiochemistry.

Author

Chung, Sein, Cho, Yongjoon, Kim, Jinsung, Lee, Seon Baek, Park, Chaneui, Kim, Seunghyun, Kang, Boseok, Yang, Changduk, and Cho, Kilwon

Subjects
CONJUGATED polymers, MOLECULAR structure, COPOLYMERS, SPINE, POLYMERS
Abstract

Solution‐processable donor–acceptor‐type conjugated copolymers are considered one of the most promising alternatives to inorganic semiconductors. The introduction of strong electron‐withdrawing groups in the acceptor units of the copolymers has been shown to favor fast charge transport; however, the correlation among the halogen‐substituted molecular structure, solid‐state packing, and charge transport properties is unclear. In this study, new chlorine‐atom‐substituted donor–acceptor copolymers comprising chlorobenzo[c]‐[1,2,5]thiadiazole and 4,4‐dihexadecyl‐4H‐cyclopenta[1,2‐b:5,4‐b′]dithiophene are synthesized and their physicochemical properties are compared with those of their unsubstituted or nitrogen‐incorporated backbone analogs. In addition, the regioregularity of the synthesized copolymers is controlled to investigate the effects of regiochemistry on the polymer backbone alignment using the nanogroove method. The results demonstrate that different degrees of regioregularity in the main chains induce a substantially dissimilar effect of the nanogroove and capillary force on the orientation of the polymer backbone, long‐range crystalline order, and charge transport properties of the conjugated polymers. [ABSTRACT FROM AUTHOR]

Published
2021
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16. Cu‐Phosphorus Eutectic Solid Solution for Growth of Multilayer Graphene with Widely Tunable Doping.

Author

Yoo, Min Seok, Lee, Hyo Chan, Lee, Seon Baek, and Cho, Kilwon

Subjects
SOLID solutions, CHEMICAL vapor deposition, EUTECTIC reactions, GRAPHENE, LIQUID phase epitaxy, PHOSPHORUS in water, THIN films, N-type semiconductors
Abstract

A one‐step chemical vapor deposition (CVD) is proposed to grow multilayer graphene (MLG) with tunable doping types using a copper–phosphorus eutectic system as a catalyst. At the growth temperature, the phosphorus‐dissolved copper forms a liquid phase, which promotes the formation of phosphorus‐doped MLG. With this method, the thickness and doping level of graphene are simultaneously controlled at the synthesis stage. Moreover, the proposed CVD method enables patterned growth of MLG at the microscale. The resultant phosphorus‐doped graphene demonstrates a tunable doping state from large n‐type doping to p‐type doping because of the high affinity of phosphorus to water molecules. Finally, stable n‐type doping of MLG by passivating it with a parylene thin film is demonstrated. [ABSTRACT FROM AUTHOR]

Published
2021
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