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SangWook Park Zhongquan Liao Bergoi Ibarlucea Haoyuan Qi Hung‐Hsuan Lin Daniel Becker Jason Melidonie Tao Zhang Hafeesudeen Sahabudeen Larysa Baraban Chang‐Ki Baek Zhikun Zheng Ehrenfried Zschech Andreas Fery Thomas Heine Ute Kaiser Gianaurelio Cuniberti Renhao Dong Xinliang Feng 《Angewandte Chemie (International ed. in English)》2020,59(21):8218-8224
Despite the recent progress in the synthesis of crystalline boronate ester covalent organic frameworks (BECOFs) in powder and thin‐film through solvothermal method and on‐solid‐surface synthesis, respectively, their applications in electronics, remain less explored due to the challenges in thin‐film processability and device integration associated with the control of film thickness, layer orientation, stability and crystallinity. Moreover, although the crystalline domain sizes of the powder samples can reach micrometer scale (up to ≈1.5 μm), the reported thin‐film samples have so far rather small crystalline domains up to 100 nm. Here we demonstrate a general and efficient synthesis of crystalline two‐dimensional (2D) BECOF films composed of porphyrin macrocycles and phenyl or naphthyl linkers (named as 2D BECOF‐PP or 2D BECOF‐PN ) by employing a surfactant‐monolayer‐assisted interfacial synthesis (SMAIS) on the water surface. The achieved 2D BECOF‐PP is featured as free‐standing thin film with large single‐crystalline domains up to ≈60 μm2 and tunable thickness from 6 to 16 nm. A hybrid memory device composed of 2D BECOF‐PP film on silicon nanowire‐based field‐effect transistor is demonstrated as a bio‐inspired system to mimic neuronal synapses, displaying a learning–erasing–forgetting memory process. 相似文献
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Hafeesudeen Sahabudeen Dr. Haoyuan Qi Marco Ballabio Dr. Miroslav Položij Dr. Selina Olthof Rishi Shivhare Dr. Yu Jing SangWook Park Kejun Liu Dr. Tao Zhang Ji Ma Dr. Bernd Rellinghaus Prof. Dr. Stefan Mannsfeld Prof. Dr. Thomas Heine Prof. Dr. Mischa Bonn Prof. Dr. Enrique Cánovas Prof. Dr. Zhikun Zheng Prof. Dr. Ute Kaiser Dr. Renhao Dong Prof. Dr. Xinliang Feng 《Angewandte Chemie (Weinheim an der Bergstrasse, Germany)》2020,132(15):6084-6092
Single-layer and multi-layer 2D polyimine films have been achieved through interfacial synthesis methods. However, it remains a great challenge to achieve the maximum degree of crystallinity in the 2D polyimines, which largely limits the long-range transport properties. Here we employ a surfactant-monolayer-assisted interfacial synthesis (SMAIS) method for the successful preparation of porphyrin and triazine containing polyimine-based 2D polymer (PI-2DP) films with square and hexagonal lattices, respectively. The synthetic PI-2DP films are featured with polycrystalline multilayers with tunable thickness from 6 to 200 nm and large crystalline domains (100–150 nm in size). Intrigued by high crystallinity and the presence of electroactive porphyrin moieties, the optoelectronic properties of PI-2DP are investigated by time-resolved terahertz spectroscopy. Typically, the porphyrin-based PI-2DP 1 film exhibits a p-type semiconductor behavior with a band gap of 1.38 eV and hole mobility as high as 0.01 cm2 V−1 s−1, superior to the previously reported polyimine based materials. 相似文献
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Hafeesudeen Sahabudeen Haoyuan Qi Marco Ballabio Miroslav Poloij Selina Olthof Rishi Shivhare Yu Jing SangWook Park Kejun Liu Tao Zhang Ji Ma Bernd Rellinghaus Stefan Mannsfeld Thomas Heine Mischa Bonn Enrique Cnovas Zhikun Zheng Ute Kaiser Renhao Dong Xinliang Feng 《Angewandte Chemie (International ed. in English)》2020,59(15):6028-6036
Single‐layer and multi‐layer 2D polyimine films have been achieved through interfacial synthesis methods. However, it remains a great challenge to achieve the maximum degree of crystallinity in the 2D polyimines, which largely limits the long‐range transport properties. Here we employ a surfactant‐monolayer‐assisted interfacial synthesis (SMAIS) method for the successful preparation of porphyrin and triazine containing polyimine‐based 2D polymer (PI‐2DP) films with square and hexagonal lattices, respectively. The synthetic PI‐2DP films are featured with polycrystalline multilayers with tunable thickness from 6 to 200 nm and large crystalline domains (100–150 nm in size). Intrigued by high crystallinity and the presence of electroactive porphyrin moieties, the optoelectronic properties of PI‐2DP are investigated by time‐resolved terahertz spectroscopy. Typically, the porphyrin‐based PI‐2DP 1 film exhibits a p‐type semiconductor behavior with a band gap of 1.38 eV and hole mobility as high as 0.01 cm2 V?1 s?1, superior to the previously reported polyimine based materials. 相似文献
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SangWook Park Dr. Zhongquan Liao Dr. Bergoi Ibarlucea Dr. Haoyuan Qi Hung-Hsuan Lin Daniel Becker Jason Melidonie Dr. Tao Zhang Hafeesudeen Sahabudeen Dr. Larysa Baraban Prof. Dr. Chang-Ki Baek Prof. Dr. Zhikun Zheng Prof. Dr. Ehrenfried Zschech Prof. Dr. Andreas Fery Prof. Dr. Thomas Heine Prof. Dr. Ute Kaiser Prof. Dr. Gianaurelio Cuniberti Dr. Renhao Dong Prof. Dr. Xinliang Feng 《Angewandte Chemie (Weinheim an der Bergstrasse, Germany)》2020,132(21):8295-8301
Despite the recent progress in the synthesis of crystalline boronate ester covalent organic frameworks (BECOFs) in powder and thin-film through solvothermal method and on-solid-surface synthesis, respectively, their applications in electronics, remain less explored due to the challenges in thin-film processability and device integration associated with the control of film thickness, layer orientation, stability and crystallinity. Moreover, although the crystalline domain sizes of the powder samples can reach micrometer scale (up to ≈1.5 μm), the reported thin-film samples have so far rather small crystalline domains up to 100 nm. Here we demonstrate a general and efficient synthesis of crystalline two-dimensional (2D) BECOF films composed of porphyrin macrocycles and phenyl or naphthyl linkers (named as 2D BECOF-PP or 2D BECOF-PN ) by employing a surfactant-monolayer-assisted interfacial synthesis (SMAIS) on the water surface. The achieved 2D BECOF-PP is featured as free-standing thin film with large single-crystalline domains up to ≈60 μm2 and tunable thickness from 6 to 16 nm. A hybrid memory device composed of 2D BECOF-PP film on silicon nanowire-based field-effect transistor is demonstrated as a bio-inspired system to mimic neuronal synapses, displaying a learning–erasing–forgetting memory process. 相似文献
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