染料掺杂提高自组装驻极体振动能量采集器抗光稳定性

N. Matsuura, H. Ishii, Y. Tanaka
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摘要

自组装驻极体(SAEs)中极性分子如Alq3和TPBi通过气相沉积自发有序,是很有前途的振动能量发生器(VEGs)材料。由于不需要电晕充电等充电过程,SAEs可以简化veg的制造过程;然而,由于激子解离产生载流子,导致SAE表面极化电荷补偿,因此SAE对光照射敏感。为了限制电荷的产生,在本研究中,将染料分子掺杂到具有比染料分子更宽光学间隙的SAE中。在掺杂的SAE中,激子能量被转移到染料中,导致激子猝灭。在本研究中,我们将Alq$ {3}(2.4$ vol%)掺杂到具有宽光学间隙的TPBi中,并在光照射下评估了掺杂薄膜组成的VEG的稳定性。结果表明,该器件中50%损耗的保留时间是纯tpbi基VEG的2.6倍。这一结果表明,掺杂SAE的应用对于实现基于SAE的长寿命VEG是非常有用的。
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Stability improvement against light irradiation by dye doping in self-assembled electret-based vibrational energy harvester
Self-assembled electrets (SAEs), in which polar molecules such as Alq3 and TPBi are spontaneously ordered by vapor deposition, are promising materials for vibrational energy generators (VEGs). SAEs can simplify fabrication process of VEGs because the charging process, e.g. corona charging, is not required; however, SAEs are sensitive for light irradiation because charge carriers are generated by exciton dissociation, leading to compensation of polarization charge on the SAE surface. In order to restrict charge generation, in this study, the dye molecule is doped into SAE having a wider optical gap than that of dye molecule. In the doped SAE, exciton energy is transferred to the dye, resulting in exciton quenching. In this work, we doped Alq$_{3}(2.4$ vol%) to TPBi which has a wide optical gap, and stability of VEG composed of the doped film was evaluated during light irradiation. We demonstrate that the retention time of 50% loss in the device was 2.6 times longer than that of neat TPBi-based VEG. This result suggests that the application of doped SAE is quite useful to realize long-lived SAE-based VEG.
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