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NTIS 바로가기ACS applied materials & interfaces, v.12 no.8, 2020년, pp.9701 - 9709
Tao, Jinsong (State Key Laboratory of Pulp and Paper Engineering , South China University of Technology , Guangzhou 510640 , China) , Wang, Ruiping (State Key Laboratory of Pulp and Paper Engineering , South China University of Technology , Guangzhou 510640 , China) , Yu, Huang (State Key Laboratory of Pulp and Paper Engineering , South China University of Technology , Guangzhou 510640 , China) , Chen, Linlin (State Key Laboratory of Pulp and Paper Engineering , South China University of Technology , Guangzhou 510640 , China) , Fang, Dongjun (State Key Laboratory of Pulp and Paper Engineering , South China University of Technology , Guangzhou 510640 , China) , Tian, Yan (State Key Laboratory of Pulp and Paper Engineering , South China University of Technology , Guangzhou 510640 , China) , Xie, Jingyi (State Key Laboratory of Pulp and Paper Engineering , South China University of Technology , Guangzhou 510640 , China Chi) , Jia, Dongmei , Liu, Hao , Wang, Jiasheng , Tang, Fangcheng , Song, Li , Li, Hongbian
Flexible organic light-emitting diode (OLED) devices based on polymer substrates have attracted worldwide attention. However, the current OLED polymer substrates are limited due to weak thermal stability, which is not compatible with the high temperature in OLED fabrication. Here, we developed a nov...
Uoyama, Hiroki, Goushi, Kenichi, Shizu, Katsuyuki, Nomura, Hiroko, Adachi, Chihaya. Highly efficient organic light-emitting diodes from delayed fluorescence. Nature, vol.492, no.7428, 234-238.
Malissa, H., Kavand, M., Waters, D. P., van Schooten, K. J., Burn, P. L., Vardeny, Z. V., Saam, B., Lupton, J. M., Boehme, C.. Room-temperature coupling between electrical current and nuclear spins in OLEDs. Science, vol.345, no.6203, 1487-1490.
Zhang, Shuyu, Turnbull, Graham A., Samuel, Ifor D. W.. Highly Directional Emission and Beam Steering from Organic Light‐Emitting Diodes with a Substrate Diffractive Optical Element. Advanced optical materials, vol.2, no.4, 343-347.
Yao, Yonggang, Tao, Jinsong, Zou, Jianhua, Zhang, Bilun, Li, Tian, Dai, Jiaqi, Zhu, Mingwei, Wang, Sha, Fu, Kun Kelvin, Henderson, Doug, Hitz, Emily, Peng, Junbiao, Hu, Liangbing. Light management in plastic–paper hybrid substrate towards high-performance optoelectronics. Energy & environmental science, vol.9, no.7, 2278-2285.
Kim, Sunkook, Kwon, Hyuk‐Jun, Lee, Sunghun, Shim, Hongshik, Chun, Youngtea, Choi, Woong, Kwack, Jinho, Han, Dongwon, Song, MyoungSeop, Kim, Sungchul, Mohammadi, Saeed, Kee, InSeo, Lee, Sang Yoon. Low‐Power Flexible Organic Light‐Emitting Diode Display Device. Advanced materials, vol.23, no.31, 3511-3516.
Liang, Jiajie, Li, Lu, Tong, Kwing, Ren, Zhi, Hu, Wei, Niu, Xiaofan, Chen, Yongsheng, Pei, Qibing. Silver Nanowire Percolation Network Soldered with Graphene Oxide at Room Temperature and Its Application for Fully Stretchable Polymer Light-Emitting Diodes. ACS nano, vol.8, no.2, 1590-1600.
Lewis, Jay, Grego, Sonia, Chalamala, Babu, Vick, Erik, Temple, Dorota. Highly flexible transparent electrodes for organic light-emitting diode-based displays. Applied physics letters, vol.85, no.16, 3450-3452.
Kim, Sun Dal, Lee, Byungyong, Byun, Taejoon, Chung, Im Sik, Park, Jongmin, Shin, Isaac, Ahn, Nam Young, Seo, Myungeun, Lee, Yunho, Kim, Yeonjoon, Kim, Woo Youn, Kwon, Hyukyun, Moon, Hanul, Yoo, Seunghyup, Kim, Sang Youl. Poly(amide-imide) materials for transparent and flexible displays. Science advances, vol.4, no.10, eaau1956-.
Park, Jin-Seong, Kim, Tae-Woong, Stryakhilev, Denis, Lee, Jae-Sup, An, Sung-Guk, Pyo, Yong-Shin, Lee, Dong-Bum, Mo, Yeon Gon, Jin, Dong-Un, Chung, Ho Kyoon. Flexible full color organic light-emitting diode display on polyimide plastic substrate driven by amorphous indium gallium zinc oxide thin-film transistors. Applied physics letters, vol.95, no.1, 013503-.
Pavlidou, S., Papaspyrides, C.D.. A review on polymer-layered silicate nanocomposites. Progress in polymer science, vol.33, no.12, 1119-1198.
Chan, Chi-Ming, Wu, Jingshen, Li, Jian-Xiong, Cheung, Ying-Kit. Polypropylene/calcium carbonate nanocomposites. Polymer, vol.43, no.10, 2981-2992.
Singh, S., Mahalingam, H., Singh, P.K.. Polymer-supported titanium dioxide photocatalysts for environmental remediation: A review. Applied catalysis. A, General, vol.462, 178-195.
Sahoo, Nanda Gopal, Rana, Sravendra, Cho, Jae Whan, Li, Lin, Chan, Siew Hwa. Polymer nanocomposites based on functionalized carbon nanotubes. Progress in polymer science, vol.35, no.7, 837-867.
Antar, Z., Feller, J.F., Noel, H., Glouannec, P., Elleuch, K.. Thermoelectric behaviour of melt processed carbon nanotube/graphite/poly(lactic acid) conductive biopolymer nanocomposites (CPC). Materials letters, vol.67, no.1, 210-214.
Nyholm, Leif, Nyström, Gustav, Mihranyan, Albert, Strømme, Maria. Toward Flexible Polymer and Paper‐Based Energy Storage Devices. Advanced materials, vol.23, no.33, 3751-3769.
Isogai, Akira, Saito, Tsuguyuki, Fukuzumi, Hayaka. TEMPO-oxidized cellulose nanofibers. Nanoscale, vol.3, no.1, 71-85.
Brett, Calvin J., Mittal, Nitesh, Ohm, Wiebke, Gensch, Marc, Kreuzer, Lucas P., Körstgens, Volker, Månsson, Martin, Frielinghaus, Henrich, Müller-Buschbaum, Peter, Söderberg, L. Daniel, Roth, Stephan V.. Water-Induced Structural Rearrangements on the Nanoscale in Ultrathin Nanocellulose Films. Macromolecules, vol.52, no.12, 4721-4728.
Yu, Huang, Fang, Dongjun, Dirican, Mahmut, Wang, Ruiping, Tian, Yan, Chen, Linlin, Liu, Hao, Wang, Jiasheng, Tang, Fangcheng, Asiri, Abdullah M., Zhang, Xiangwu, Tao, Jinsong. Binding Conductive Ink Initiatively and Strongly: Transparent and Thermally Stable Cellulose Nanopaper as a Promising Substrate for Flexible Electronics. ACS applied materials & interfaces, vol.11, no.22, 20281-20290.
Yu, Houyong, Qin, Zongyi, Liang, Banglei, Liu, Na, Zhou, Zhe, Chen, Long. Facile extraction of thermally stable cellulose nanocrystals with a high yield of 93% through hydrochloric acid hydrolysis under hydrothermal conditions. Journal of materials chemistry. A, Materials for energy and sustainability, vol.1, no.12, 3938-.
Kargarzadeh, Hanieh, Ahmad, Ishak, Abdullah, Ibrahim, Dufresne, Alain, Zainudin, Siti Yasmine, Sheltami, Rasha M.. Effects of hydrolysis conditions on the morphology, crystallinity, and thermal stability of cellulose nanocrystals extracted from kenaf bast fibers. Cellulose, vol.19, no.3, 855-866.
Tao, Jinsong, Fang, Zhiqiang, Zhang, Qing, Bao, Wenzhong, Zhu, Mingwei, Yao, Yonggang, Wang, Yanbin, Dai, Jiaqi, Zhang, Ariel, Leng, Caroline, Henderson, Doug, Wang, Zhengyang, Hu, Liangbing. Super‐Clear Nanopaper from Agro‐Industrial Waste for Green Electronics. Advanced electronic materials, vol.3, no.5, 1600539-.
Nishino, Takashi, Takano, Kiyofumi, Nakamae, Katsuhiko. Elastic modulus of the crystalline regions of cellulose polymorphs. Journal of polymer science. Part B, Polymer physics, vol.33, no.11, 1647-1651.
Nakagaito, Antonio Norio, Nogi, Masaya, Yano, Hiroyuki. Displays from Transparent Films of Natural Nanofibers. MRS bulletin, vol.35, no.3, 214-218.
Choi, M.C., Kim, Y., Ha, C.S.. Polymers for flexible displays: From material selection to device applications. Progress in polymer science, vol.33, no.6, 581-630.
Nogi, Masaya, Iwamoto, Shinichiro, Nakagaito, Antonio Norio, Yano, Hiroyuki. Optically Transparent Nanofiber Paper. Advanced materials, vol.21, no.16, 1595-1598.
Lim, Young‐Woo, Kwon, O Eun, Kang, Seung‐Mo, Cho, Hyunsu, Lee, Jonghee, Park, Young‐Sam, Cho, Nam Sung, Jin, Won‐Yong, Lee, Jaeho, Lee, Hyunhwan, Kang, Jae‐Wook, Yoo, Seunghyup, Moon, Jaehyun, Bae, Byeong‐Soo. Built‐In Haze Glass‐Fabric Reinforced Siloxane Hybrid Film for Efficient Organic Light‐Emitting Diodes (OLEDs). Advanced functional materials, vol.28, no.33, 1802944-.
Ni, Hong-jiang, Liu, Jin-gang, Wang, Zhen-he, Yang, Shi-yong. A review on colorless and optically transparent polyimide films: Chemistry, process and engineering applications. Journal of industrial and engineering chemistry : JIEC, vol.28, 16-27.
Matsushima, Toshinori, Bencheikh, Fatima, Komino, Takeshi, Leyden, Matthew R., Sandanayaka, Atula S. D., Qin, Chuanjiang, Adachi, Chihaya. High performance from extraordinarily thick organic light-emitting diodes. Nature, vol.572, no.7770, 502-506.
Meng, Li-jian, dos Santos, M.P. Properties of indium tin oxide films prepared by rf reactive magnetron sputtering at different substrate temperature. Thin solid films, vol.322, no.1, 56-62.
Wang, Ruiping, Yu, Huang, Dirican, Mahmut, Chen, Linlin, Fang, Dongjun, Tian, Yan, Yan, Chaoyi, Xie, Jingyi, Jia, Dongmei, Liu, Hao, Wang, Jiasheng, Tang, Fangcheng, Asiri, Abdullah M., Zhang, Xiangwu, Tao, Jinsong. Highly Transparent, Thermally Stable, and Mechanically Robust Hybrid Cellulose-Nanofiber/Polymer Substrates for the Electrodes of Flexible Solar Cells. ACS applied energy materials, vol.3, no.1, 785-793.
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