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有机发光二极管(OLED)由于具有结构简单、发光效率高、制造工艺简单和厚度超薄的特点,结合柔性基底可以制备具有弯曲和折叠功能的柔性OLED器件,在柔性显示、柔性照明等领域发挥了重要作用。在承受以弯曲为主的外加载荷时,柔性OLED器件中的无机薄膜很容易出现裂纹、脱层和屈曲等形式的失效,这些失效会使器件的导电性下降并破坏器件原有的结构,从而影响器件的效率与可靠性。中性层的使用能够有效减小器件关键部位的应变,从而减轻或消除失效,器件在弯曲状态下的可靠性也得以提高。近年来,一系列基于柔性OLED器件中性层的研究被陆续报道。本文综述了中性层技术在柔性OLED器件上的应用。首先,讨论了中性层的概念以及单个中性层位置的确定方法;其次,介绍了单个中性层和多个中性层在实际器件中的应用;最后,对柔性OLED器件未来的发展方向做出了展望。 相似文献
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柔性有机场效应晶体管具有可折叠、质量轻、低成本等优点,在柔性显示、柔性传感器、柔性射频标签和柔性集成电路等方面显示了广阔的应用前景.本文在介绍柔性有机场效应 晶体管最新研究进展的基础上, 总结了柔性有机场效应晶体管的器件结构和柔性有机场效应晶体管所使用的衬底材料、 栅绝缘层材料、有源层材料及电极材料, 阐述了柔性有机场效应晶体管的制备工艺, 并讨论了不同的弯曲方式对柔性有机场效应晶体管性能的影响, 最后总结和展望了柔性有机场效应晶体管的应用领域.
关键词:
柔性
晶体管
有机/聚合物
溶液加工 相似文献
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柔性太阳电池具有重量轻、可卷对卷连续生产、可卷曲、不易破碎、便于携带和可穿戴等特点,可在多种领域为人们提供电力,具有非常广泛的应用前景。近年来,在基于刚性衬底的有机/无机杂化钙钛矿太阳电池(PSC)展示了出色的功率转换效率之后,柔性PSC研究也受到了人们的广泛关注。目前,柔性PSC的转换效率已经达到了18.1%。本文介绍了近年来柔性PSC领域的相关研究工作,综述了已应用于柔性PSC的柔性基底、透明电极和界面传输层等关键材料近来的发展,并探讨了这些材料应用于柔性PSC时的优势和面临的主要问题,最后对柔性PSC未来的发展进行了展望。 相似文献
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柔性LED是近年来照明及显示领域研究的热点之一.本文提出了一种新的基于有机硅胶(PDMS)制备的兼具超弹性和柔性的荧光薄膜,它不仅在-50~230℃这一较宽的温度范围内展现了良好的热稳定性,还保持了原料荧光粉的光学性能.所制备的透明PDMS基质膜和相应的荧光膜具有完全的柔性和超弹性,其最大伸长率分别高达400%与275%.此外,采用所制掺YAG荧光膜和普通商用1 W蓝光芯片简单封装的白光LED灯珠满足日常白光照明的应用要求,呈现出约6925 K的平均色温,约71的平均显色指数,115.7 lm/W左右的平均发光效率.最后,基于所提出荧光膜成膜工艺而制备的三色3×3柔性阵列显示,可以轻易被拉伸、卷曲和折叠,显示了它在柔性照明及显示器件方面具有应用价值和潜力. 相似文献
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柔性有机非易失性场效应晶体管存储器具有柔性、质轻、成本低、可低温及大面积加工等优点,在射频识别标签、柔性存储、柔性集成电路和大面积柔性显示等领域展现出巨大的应用前景.本文在介绍柔性有机非易失性场效应晶体管存储器的衬底材料、器件结构和性能参数的基础上,总结了柔性有机非易失性场效应晶体管存储器的分类,并讨论了机械应力和不同温度对柔性有机非易失性场效应晶体管存储器性能参数的影响,最后展望了柔性有机非易失性场效应晶体管存储器的应用前景以及所面临的挑战. 相似文献
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众所周知,柔性信息显示将在未来的光电应用中发挥重要作用。然而,由于电极材料和柔性衬底的选择有限,制备高效、稳定的柔性发光二极管仍然存在巨大的挑战。以光聚合物作为柔性衬底、CsPbBr3量子点作为发光层,成功地制备了柔性钙钛矿发光二极管。为了改善电子的注入和传输,采用Ag作阴极。结果表明,高柔性的钙钛矿发光二极管的最高亮度为10325 cd/m2且具有高色纯度(FWHM=19 nm)。此外,制备的钙钛矿发光二极管具有良好的柔性和机械延展性。在大约180°的弯曲角度下反复弯曲100次后,仍然保持着良好的器件性能。该研究为未来柔性显示器的应用奠定了研究基础。 相似文献
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超薄电子器件的蓬勃发展和日益增长的人性化需求极大促进了可穿戴柔性微器件的发展,但是沉积电极材料在柔性基板上的技术仍处于起步阶段. 本文通过结合四面体制备器辅助涂层法和激光切割叉指构型技术,大规模地将碳纳米管沉积到商用印刷纸上作为电极,切割组装获得了柔性对称微型超级电容器. 制得的微型超级电容器的电化学性能可以通过简单地选择不同的四面体制备器模型制备不同厚度的碳纳米管薄膜进行调控. 优化获得的碳纳米管薄膜基微型超级电容器在0.02 mA的电流下,具有高达4.56 mF/cm2的面电容. 微型超级电容器经过连续10000次循环,器件的性能仍然可以保持接近100%. 四面体制备器辅助涂层方法和激光切割叉指构型技术为制备经济的微电子器件提供了新的视角. 附着碳纳米管的纸电极实现了可调控的面电容,在未来制备平面构型的不对称微超级电容器方面展示了广阔的应用前景. 相似文献
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近年来,随着物联网、仿生机器人、移动式医疗健康等领域的兴起,柔性电子材料和器件受到广泛关注.基于磁性材料构建的传感器和存储器是电子器件的重要组成部分.随着柔性薄膜材料制备技术的发展,人们已经制备出高质量的柔性乃至可拉伸的磁性金属和氧化物薄膜,它们展现的不仅是更强的变形能力,还有新的物理效应与响应规律.研究结果表明,柔性磁电子器件在非接触传感、高灵敏应变探测、超分辨触觉感知等方面展现出独特的优势,具有广阔的应用前景.本文主要从柔性磁性材料的制备、物性调控规律和器件应用方面综述这一新兴领域的发展动态,并对其未来的发展趋势进行展望. 相似文献
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使用银纳米线作为材料制备柔性叉指电极,用还原氧化石墨烯(reduced graphene oxide, rGO)作为气体敏感材料制备出柔性气体传感器,并研究其对二氧化氮气体的响应特性以及柔韧性能.实验结果表明,制备的以银纳米线作为电极的r GO气体传感器可以实现室温下对浓度为5-50 ppm (1 ppm=10^–6)的NO2气体的检测,对50 ppm的NO2的响应能够达到1.19,传感器的重复性较好,恢复率能够保持在76%以上,传感器的灵敏度是0.00281 ppm^-1,对浓度为5 ppm的NO2气体的响应时间是990 s,恢复时间是1566 s.此外,传感器在0°-45°的弯曲角度下仍表现出优异的电学特性与气体传感性能,所制备的器件具有相对稳定的导电性和较好的弯曲耐受性. 相似文献
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Flexible electrically pumped random lasing from ZnO nanowires based on metal–insulator–semiconductor structure
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Flexible electrically pumped random laser(RL) based on ZnO nanowires is demonstrated for the first time to our knowledge. The ZnO nanowires each with a length of 5 μm and an average diameter of 180 nm are synthesized on flexible substrate(ITO/PET) by a simple hydrothermal method. No obvious visible defect-related-emission band is observed in the photoluminescence(PL) spectrum, indicating that the ZnO nanowires grown on the flexible ITO/PET substrate have few defects. In order to achieve electrically pumped random lasing with a lower threshold, the metal–insulator–semiconductor(MIS) structure of Au/SiO_2/ZnO on ITO/PET substrate is fabricated by low temperature process. With sufficient forward bias, the as-fabricated flexible device exhibits random lasing, and a low threshold current of ~ 11.5 m A and high luminous intensity are obtained from the ZnO-based random laser. It is believed that this work offers a case study for developing the flexible electrically pumped random lasing from ZnO nanowires. 相似文献
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Spacecraft with large flexible appendages are characterized by multiple system modes. They suffer from inherent low-frequency disturbances in the operating environment that consequently result in considerable interference in the operational performance of the system. It is required that the control design ensures the system’s high pointing precision, and it is also necessary to suppress low-frequency resonant interference as well as take into account multiple performance criteria such as attitude stability and bandwidth constraints. Aiming at the comprehensive control problem of this kind of flexible spacecraft, we propose a control strategy using a structured H-infinity controller with low complexity that was designed to meet the multiple performance requirements, so as to reduce the project cost and implementation difficulty. According to the specific resonant mode of the system, the design strategy of adding an internal mode controller, a trap filter, and a series PID controller to the structured controller is proposed, so as to achieve the comprehensive control goals through cooperative control of multiple control modules. A spacecraft with flexible appendages (solar array) is presented as an illustrative example in which a weighted function was designed for each performance requirement of the system (namely robustness, stability, bandwidth limit, etc.), and a structured comprehensive performance matrix with multiple performance weights and decoupled outputs was constructed. A structured H-infinity controller meeting the comprehensive performance requirements is given, which provides a structured integrated control method with low complexity for large flexible systems that is convenient for engineering practice, and provides a theoretical basis and reference examples for structured H-infinity control. The simulation results show that the proposed controller gives better control performance compared with the traditional H-infinity one, and can successfully suppress the vibration of large flexible appendages at 0.12 Hz and 0.66 Hz. 相似文献
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Flexible Ti‐Doped FeOOH Quantum Dots/Graphene/Bacterial Cellulose Anode for High‐Energy Asymmetric Supercapacitors
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Rong Liu Lina Ma Gudan Niu Xiaolong Li Enyuan Li Yang Bai Yang Liu Guohui Yuan 《Particle & Particle Systems Characterization》2017,34(10)
Ti‐doped FeOOH quantum dots (QD) decorated on graphene (GN) sheets are designed and fabricated by a facile and scalable synthesis route. Importantly, the Ti‐doped FeOOH QD/GN are successfully dispersed within bacterial cellulose (BC) substrate as bending anode with large loading mass for flexible supercapacitor. By virtue of its favorable architecture, this composite electrode exhibits a remarkable areal capacitance of 3322 mF cm?2 at 2 mA cm?2, outstanding cycle performance (94.7% capacitance retention after 6000 cycles), and excellent mechanical strength (68.7 MPa). To push the energy density of flexible supercapacitors, the optimized asymmetric supercapacitor using Mn3O4/GN/BC as positive electrode and Ti‐doped FeOOH QD/GN/BC as negative electrode can be cycled reversibly in the operating voltage range of 0–1.8 V and displays ultrahigh areal energy density of 0.541 mWh cm?2, ultrahigh volumetric energy density of 9.02 mWh cm?3, reasonable cycling performance (9.4% decay in specific capacitance after 5000 cycles), and good capacitive retention at bending state. 相似文献
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以紫外臭氧处理超薄Ag复合MoO3或PEDOT:PSS修饰ITO电极的高效柔性有机太阳能电池。通过优化紫外臭氧处理Ag薄膜的时间,提高了以P3HT:PCBM为有源层的器件的功率转换效率,从1.68%(未经过紫外臭氧处理)提高到2.57%(紫外臭氧处理Ag 1 min)。提高的原因推测是紫外臭氧处理形成了AgOx薄膜,提高了电荷提取并使器件具有高光学透明度、低串联电阻和优异的表面功函数等一些性能。并且,紫外臭氧处理Ag薄膜与MoO3或者PEDOT:PSS复合修饰ITO的器件效率分别得到提高,Ag薄膜与MoO3复合修饰ITO的器件效率从2.02%(PET/ITO/MoO3)提高到2.97%(PET/ITO/AgOx/MoO3),Ag薄膜与PEDOT:PSS复合修饰ITO的器件效率从2.01%(PET/ITO/PEDOT:PSS)提高到2.93%(PET/ITO/AgOx/PEDOT:PSS)。此外,以PBDTTT-EFT:PC71BM为有源层的柔性聚合物太阳能电池效率可达6.21%。基于ITO的柔性光电器件效率的提高主要归于ITO被Ag/PEDOT:PSS或Ag/MoO3修饰后功函数的提高。 相似文献