참고문헌 (58)

1. The Story of Liquid Crystal Displays and the Creation of an Industry Castellano J. A. 2005 10.1142/5622 

   

2. Jakoby, Rolf, Gaebler, Alexander, Weickhmann, Christian. Microwave Liquid Crystal Enabling Technology for Electronically Steerable Antennas in SATCOM and 5G Millimeter-Wave Systems. Crystals, vol.10, no.6, 514-.

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3. Bukusoglu, Emre, Bedolla Pantoja, Marco, Mushenheim, Peter C., Wang, Xiaoguang, Abbott, Nicholas L.. Design of Responsive and Active (Soft) Materials Using Liquid Crystals. Annual review of chemical and biomolecular engineering, vol.7, 163-196.

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4. Zheng, Zhi‐Gang, Lu, Yan‐Qing, Li, Quan. Photoprogrammable Mesogenic Soft Helical Architectures: A Promising Avenue toward Future Chiro‐Optics. Advanced materials, vol.32, no.41, 1905318-.

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5. Bisoyi, Hari Krishna, Bunning, Timothy J., Li, Quan. Stimuli‐Driven Control of the Helical Axis of Self‐Organized Soft Helical Superstructures. Advanced materials, vol.30, no.25, 1706512-.

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6. 10.1002/9783527671403 

   

7. Kato, Takashi, Yoshio, Masafumi, Ichikawa, Takahiro, Soberats, Bartolome, Ohno, Hiroyuki, Funahashi, Masahiro. Transport of ions and electrons in nanostructured liquid crystals. Nature reviews. Materials, vol.2, no.4, 17001-.

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8. Kerr, Robert L., Miller, Seth A., Shoemaker, Richard K., Elliott, Brian J., Gin, Douglas L.. New Type of Li Ion Conductor with 3D Interconnected Nanopores via Polymerization of a Liquid Organic Electrolyte-Filled Lyotropic Liquid-Crystal Assembly. Journal of the American Chemical Society, vol.131, no.44, 15972-15973.

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9. Gregg, Brian A.. Entropy of Charge Separation in Organic Photovoltaic Cells: The Benefit of Higher Dimensionality. The journal of physical chemistry letters, vol.2, no.24, 3013-3015.

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10. Kutsumizu, Shoichi. Recent Progress in the Synthesis and Structural Clarification of Thermotropic Cubic Phases. Israel journal of chemistry, vol.52, no.10, 844-853.

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11. O’Neill, Mary, Kelly, Stephen M.. Ordered Materials for Organic Electronics and Photonics. Advanced materials, vol.23, no.5, 566-584.

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12. Sergeyev, Sergey, Pisula, Wojciech, Geerts, Yves Henri. Discotic liquid crystals: a new generation of organic semiconductors. Chemical Society reviews, vol.36, no.12, 1902-1929.

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13. Pisula, Wojciech, Zorn, Matthias, Chang, Ji Young, Müllen, Klaus, Zentel, Rudolf. Liquid Crystalline Ordering and Charge Transport in Semiconducting Materials. Macromolecular rapid communications, vol.30, no.14, 1179-1202.

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14. Funahashi, Masahiro, Seki, Atsushi. Nanostrucure Formation Based on the Functionalized Side Chains in Liquid-Crystalline Heteroaromatic Compounds. Heterocycles, vol.92, no.1, 3-.

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15. Termine, Roberto, Golemme, Attilio. Charge Mobility in Discotic Liquid Crystals. International journal of molecular sciences, vol.22, no.2, 877-.

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16. To the best of our knowledge the only Cubbimaterial which was investigated with respect to charge carrier mobility is based on a bis(4‐alkoxybenzoyl)hydrazine core with relatively short π‐conjugation length see ref. [16]. 

17. Suisse, Jean-Moïse, Mori, Hiroyuki, Monobe, Hirosato, Kutsumizu, Shoichi, Shimizu, Yo. Charged carrier mobility in the cubic (Ia3d) mesophase of 1,2-bis(4′-n-nonyloxybenzoyl)hydrazine (BABH-9). Soft matter, vol.7, no.23, 11086-11088.

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18. Crossland, Edward J. W., Kamperman, Marleen, Nedelcu, Mihaela, Ducati, Caterina, Wiesner, Ulrich, Smilgies, Detlef -M., Toombes, Gilman E. S., Hillmyer, Marc A., Ludwigs, Sabine, Steiner, Ullrich, Snaith, Henry J.. A Bicontinuous Double Gyroid Hybrid Solar Cell. Nano letters : a journal dedicated to nanoscience and nanotechnology, vol.9, no.8, 2807-2812.

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19. Cho, Whirang, Wu, Jinghang, Shim, Bong Sup, Kuan, Wei-Fan, Mastroianni, Sarah E., Young, Wen-Shiue, Kuo, Chin-Chen, Epps, III, Thomas H., Martin, David C.. Synthesis and characterization of bicontinuous cubic poly(3,4-ethylene dioxythiophene) gyroid (PEDOT GYR) gels. Physical chemistry chemical physics : PCCP, vol.17, no.7, 5115-5123.

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20. Nguyen, Huu‐Tinh, Destrade, Christian, Malthécte, Jacques. Phasmids and Polycatenar Mesogens. Advanced materials, vol.9, no.5, 375-388.

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21. Bruce, D. W.. Calamitics, Cubics, and Columnars&sbd;Liquid-Crystalline Complexes of Silver(I). Accounts of chemical research, vol.33, no.12, 831-840.

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22. Dressel, Christian, Reppe, Tino, Poppe, Silvio, Prehm, Marko, Lu, Huanjun, Zeng, Xiangbing, Ungar, Goran, Tschierske, Carsten. Helical Networks of π‐Conjugated Rods – A Robust Design Concept for Bicontinuous Cubic Liquid Crystalline Phases with Achiral Ia3¯d and Chiral I23 Lattice. Advanced functional materials, vol.30, no.45, 2004353-.

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23. Dressel, Christian, Liu, Feng, Prehm, Marko, Zeng, Xiangbing, Ungar, Goran, Tschierske, Carsten. Dynamic Mirror-Symmetry Breaking in Bicontinuous Cubic Phases. Angewandte Chemie. international edition, vol.53, no.48, 13115-13120.

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24. Tschierske, Carsten, Ungar, Goran. Mirror Symmetry Breaking by Chirality Synchronisation in Liquids and Liquid Crystals of Achiral Molecules. Chemphyschem : a European journal of chemical physics and physical chemistry, vol.17, no.1, 9-26.

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25. Cao, Yu, Alaasar, Mohamed, Nallapaneni, Asritha, Salamończyk, Mirosław, Marinko, Peter, Gorecka, Ewa, Tschierske, Carsten, Liu, Feng, Vaupotič, Nataša, Zhu, Chenhui. Molecular Packing in Double Gyroid Cubic Phases Revealed via Resonant Soft X-Ray Scattering. Physical review letters, vol.125, no.2, 027801-.

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26. Zeng, Xiangbing, Ungar, Goran. Spontaneously chiral cubic liquid crystal: three interpenetrating networks with a twist. Journal of materials chemistry. C, Materials for optical and electronic devices, vol.8, no.16, 5389-5398.

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27. This phase was previously assigned to the achiralIm3mspace group but due to chirality it must have a chiral space group. The advantage of the triple network model withI23 symmetry over other proposed structures[26]is that there are exclusively three‐way junctions just like in the adjacent double gyroid phase. 

28. Zeng, Xiangbing, Ungar, Goran, Impéror-Clerc, Marianne. A triple-network tricontinuous cubicliquid crystal. Nature materials, vol.4, no.7, 562-567.

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29. Saito, Kazuya, Yamamura, Yasuhisa, Miwa, Yohei, Kutsumizu, Shoichi. A structural model of the chiral “Im3m” cubic phase. Physical chemistry chemical physics : PCCP, vol.18, no.4, 3280-3284.

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30. Vaupotič, Nataša, Salamończyk, Mirosław, Matraszek, Joanna, Vogrin, Martin, Pociecha, Damian, Gorecka, Ewa. New structural model of a chiral cubic liquid crystalline phase. Physical chemistry chemical physics : PCCP, vol.22, no.22, 12814-12820.

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31. Ebata, H., Izawa, T., Miyazaki, E., Takimiya, K., Ikeda, M., Kuwabara, H., Yui, T.. Highly Soluble [1]Benzothieno[3,2-b]benzothiophene (BTBT) Derivatives for High-Performance, Solution-Processed Organic Field-Effect Transistors. Journal of the American Chemical Society, vol.129, no.51, 15732-15733.

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32. Amin, Atefeh Y., Khassanov, Artoem, Reuter, Knud, Meyer-Friedrichsen, Timo, Halik, Marcus. Low-Voltage Organic Field Effect Transistors with a 2-Tridecyl[1]benzothieno[3,2-b][1]benzothiophene Semiconductor Layer. Journal of the American Chemical Society, vol.134, no.40, 16548-16550.

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33. Sanda, Shoya, Nagase, Takashi, Kobayashi, Takashi, Takimiya, Kazuo, Sadamitsu, Yuichi, Naito, Hiroyoshi. High-performance didodecylbenzothienobenzothiophene-based top-gate organic transistors processed by spin coating using binary solvent mixtures. Organic electronics, vol.58, 306-312.

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34. Alkan, M., Yavuz, I.. Intrinsic charge-mobility in benzothieno[3,2-b][1]benzothiophene (BTBT) organic semiconductors is enhanced with long alkyl side-chains. Physical chemistry chemical physics : PCCP, vol.20, no.23, 15970-15979.

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35. He, Yaowu, Sezen, Melda, Zhang, Dongwei, Li, Aiyuan, Yan, Lijia, Yu, Hongtao, He, Chao, Goto, Osamu, Loo, Yueh‐Lin, Meng, Hong. High Performance OTFTs Fabricated Using a Calamitic Liquid Crystalline Material of 2‐(4‐Dodecyl phenyl)[1]benzothieno[3,2‐b][1]benzothiophene. Advanced electronic materials, vol.2, no.9, 1600179-.

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36. Ruzié, Christian, Karpinska, Jolanta, Laurent, Anne, Sanguinet, Lionel, Hunter, Simon, Anthopoulos, Thomas D., Lemaur, Vincent, Cornil, Jérôme, Kennedy, Alan R., Fenwick, Oliver, Samorì, Paolo, Schweicher, Guillaume, Chattopadhyay, Basab, Geerts, Yves Henri. Design, synthesis, chemical stability, packing, cyclic voltammetry, ionisation potential, and charge transport of [1]benzothieno[3,2-b][1]benzothiophene derivatives. Journal of materials chemistry. C, Materials for optical and electronic devices, vol.4, no.22, 4863-4879.

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37. Iino, Hiroaki, Hanna, Jun-ichi. Liquid crystalline organic semiconductors for organic transistor applications. Polymer journal, vol.49, no.1, 23-30.

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38. Liu, Chun-Xia, Wang, Hu, Du, Jun-Qi, Zhao, Ke-Qing, Hu, Ping, Wang, Bi-Qin, Monobe, Hirosato, Heinrich, Benoît, Donnio, Bertrand. Molecular design of benzothienobenzothiophene-cored columnar mesogens: facile synthesis, mesomorphism, and charge carrier mobility. Journal of materials chemistry. C, Materials for optical and electronic devices, vol.6, no.16, 4471-4478.

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39. Méry, Stéphane, Haristoy, Denis, Nicoud, Jean-François, Guillon, Daniel, Diele, Siegmar, Monobe, Hirosato, Shimizu, Yo. Bipolar carrier transport in a lamello-columnar mesophase of a sanidic liquid crystal. Journal of materials chemistry, vol.12, no.1, 37-41.

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40. In previous work on polycatenars Br was used to replace one or two alkyl chains [18]whereas here it is used as an additional substituent besides the three alkyl chains. 

41. Bromine substitution at the π‐conjugated system were used for adjusting the bandgap see ref. [38]. 

42. Chum, Kalvin, Henry, Bryan R.. The effect of bromine substitution on the charge-transfer emission of the complex of phenanthrene and tetracyanobenzene. Journal of molecular spectroscopy, vol.60, no.1, 150-158.

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43. Wan, Shi‐Sheng, Chang, Chunmei, Wang, Jin‐Liang, Yuan, Gui‐Zhou, Wu, Qing, Zhang, Maojie, Li, Yongfang. Effects of the Number of Bromine Substitution on Photovoltaic Efficiency and Energy Loss of Benzo[1,2‐b:4,5‐b′]diselenophene‐based Narrow‐Bandgap Multibrominated Nonfullerene Acceptors. Solar rrl, vol.3, no.1, 1800250-.

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44. Immirzi, A., Perini, B.. Prediction of density in organic crystals. Acta crystallographica. Section A, Crystal physics, diffraction, theoretical and general crystallography, vol.33, no.1, 216-218.

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45. Though in other cases a re‐entrance of the Cubbi/Ia3¯dphase is observed upon chain elongation beyond the existence region of theI23 phase [20 43]this is not found in this case. It appears that the increased molecular length expanding the lattice does not allow the transition to a short pitchIa3¯d(S)phase and would require even smaller twist angles for the alternative transition back to a long pitchIa3¯d(L)phase. 

46. Levelut, AM., Clerc, M.. Structural investigations on 'smectic D' and related mesophases. Liquid crystals, vol.24, no.1, 105-116.

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47. Lu, Huanjun, Zeng, Xiangbing, Ungar, Goran, Dressel, Christian, Tschierske, Carsten. The Solution of the Puzzle of Smectic‐Q: The Phase Structure and the Origin of Spontaneous Chirality. Angewandte Chemie. international edition, vol.57, no.11, 2835-2840.

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48. Matraszek, Joanna, Pociecha, Damian, Vaupotič, Nataša, Salamończyk, Mirosław, Vogrin, Martin, Gorecka, Ewa. Bi-continuous orthorhombic soft matter phase made of polycatenar molecules. Soft matter, vol.16, no.16, 3882-3885.

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49. Dressel, Christian, Reppe, Tino, Prehm, Marko, Brautzsch, Marcel, Tschierske, Carsten. Chiral self-sorting and amplification in isotropic liquids of achiral molecules. Nature chemistry, vol.6, no.11, 971-977.

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50. Reppe, Tino, Poppe, Silvio, Cai, Xiaoqian, Cao, Yu, Liu, Feng, Tschierske, Carsten. Spontaneous mirror symmetry breaking in benzil-based soft crystalline, cubic liquid crystalline and isotropic liquid phases. Chemical science, vol.11, no.23, 5902-5908.

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51. Tschierske, Carsten, Dressel, Christian. Mirror Symmetry Breaking in Liquids and Their Impact on the Development of Homochirality in Abiogenesis: Emerging Proto-RNA as Source of Biochirality?. Symmetry, vol.12, no.7, 1098-.

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52. Iino, Hiroaki, Hanna, Jun-ichi, Bushby, Richard J., Movaghar, Bijan, Whitaker, Benjamin J., Cook, Michael J.. Very high time-of-flight mobility in the columnar phases of a discotic liquid crystal. Applied physics letters, vol.87, no.13, 132102-.

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53. Kastler, Marcel, Laquai, Frédéric, Müllen, Klaus, Wegner, Gerhard. Room-temperature nondispersive hole transport in a discotic liquid crystal. Applied physics letters, vol.89, no.25, 252103-.

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54. Bai, Xue, Sun, Yimeng, Jiang, Yuqian, Zhao, Guangjiu, Jiang, Jian, Yuan, Chenhuan, Liu, Minghua. Circularly Polarized Luminescence from Solvent‐Free Chiral Organic π‐Liquids. Angewandte Chemie. international edition, vol.60, no.7, 3745-3751.

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55. Borsenberger, P. M., Pautmeier, L., Bässler, H.. Hole transport in bis(4-N,N-diethylamino-2-methylphenyl)-4-methylphenylmethane. The Journal of chemical physics, vol.95, no.2, 1258-1265.

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56. Bässler, H.. Charge Transport in Disordered Organic Photoconductors a Monte Carlo Simulation Study. Physica status solidi. B, Basic research, vol.175, no.1, 15-56.

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57. Funahashi, Masahiro, Sonoda, Akinari. Electron transport characteristics in nanosegregated columnar phases of perylene tetracarboxylic bisimide derivatives bearing oligosiloxane chains. Physical chemistry chemical physics : PCCP, vol.16, no.17, 7754-7763.

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58. Han, Moon Jong, McBride, Michael, Risteen, Bailey, Zhang, Guoyan, Khau, Brian V., Reichmanis, Elsa, Yoon, Dong Ki. Highly Oriented and Ordered Water-Soluble Semiconducting Polymers in a DNA Matrix. Chemistry of materials : a publication of the American Chemical Society, vol.32, no.2, 688-696.

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