Flexible Dielectric(柔性电介质)研究综述
Flexible Dielectric 柔性电介质 - This work opens a horizon to exploit the great potential of 2D perovskite nanosheets for a wide range of applications of flexible dielectrics with the requirement of high voltage endurance. [1] This opens up new perspectives for the production of flexible dielectrics suitable for gate insulators in OFETs. [2] The previously reported researches mainly focused on inorganic rigid dielectrics or organic intrinsically-flexible dielectrics could not meet the requirements effectively and efficiently. [3] The metal-polymer contact interface plays a major role in the conduction and breakdown process in flexible dielectrics. [4] 05 at 10 kHz) which proved their good applicability in flexible dielectrics. [5] We demonstrate that a flexible dielectric-barrier-discharge (DBD) plasma actuator fabricated by an inkjet printing process using metallic inks generates stable surface discharge and ionic wind for active airflow control. [6] This paper focuses on the fabrication, characterization and comparative study of flexible pressure sensors, prepared from structured polydimethylsiloxane (PDMS) as flexible dielectric. [7] The flexible memory nanodevice based on flexible dielectrics such as PVA, which shows typical memory and artificial synaptic behaviors, could also be suitable for portable, flexible, transparent or skin-like medical applications. [8]这项工作为利用二维钙钛矿纳米片的巨大潜力开辟了广阔的视野,可用于具有高耐压要求的柔性电介质的广泛应用。 [1] 这为生产适用于 OFET 中栅极绝缘体的柔性电介质开辟了新的前景。 [2] 以往报道的研究主要集中在无机刚性电介质或有机本征柔性电介质上,不能有效和高效地满足要求。 [3] 金属-聚合物接触界面在柔性电介质的传导和击穿过程中起主要作用。 [4] 05 在 10 kHz 时),这证明了它们在柔性电介质中的良好适用性。 [5] 我们证明,通过使用金属墨水的喷墨印刷工艺制造的柔性介质阻挡放电 (DBD) 等离子体致动器可产生稳定的表面放电和离子风,用于主动气流控制。 [6] 本文重点介绍了由结构化聚二甲基硅氧烷 (PDMS) 作为柔性电介质制备的柔性压力传感器的制造、表征和比较研究。 [7] 基于柔性电介质(如 PVA)的柔性存储纳米器件显示出典型的记忆和人工突触行为,也适用于便携式、柔性、透明或类似皮肤的医疗应用。 [8]
Novel Flexible Dielectric
In this work, we report a novel flexible dielectric composite film consisting of poly (vinylidene fluoride-co-hexafluoropropylene) (P(VDF-HFP)) and dopamine-modified metal-organic frameworks Co3 [Co(CN)6]2 (D-M) with excellent capacitive performance for energy storage application. [1] The analysis and design of a novel flexible dielectric sensor, which can be integrated into a composite materials manufacturing process to measure the resin frontal flow, is presented in this paper. [2]在这项工作中,我们报道了一种由聚(偏二氟乙烯-co-六氟丙烯)(P(VDF-HFP))和多巴胺改性金属有机骨架 Co3 [Co(CN)6]2 (D-M) 组成的新型柔性介电复合薄膜。 ) 具有出色的电容性能,适用于储能应用。 [1] 本文介绍了一种新型柔性介电传感器的分析和设计,该传感器可以集成到复合材料制造过程中以测量树脂的正面流动。 [2]
flexible dielectric material 柔性介电材料
73) flexible dielectric materials and applied them to the microstrip and CPW transmission lines. [1] Thus, with a proper BT:CNT mix and filler loading, we can produce mechanically superior rubber composites that are easy to process and low-cost, for flexible dielectric materials application. [2] It is suggested that BaTiO3 ceramic powder enhanced the dielectric properties of PVC and may be used as a flexible dielectric material. [3] 73) flexible dielectric materials and applied them to the microstrip and CPW transmission lines. [4] These films might be potential flexible dielectric materials for advanced electrical devices such as embedded capacitors. [5] Flexible dielectric materials with high energy density and remarkable charge–discharge efficiency are currently in great demand for the field of energy storage. [6] Microwave flexible dielectric materials offer a new set of attractive applications for modern devices as well as for metamaterial research and technology. [7] The high dielectric constant with high ac conductivity exhibited by PVA–PVP-PPy film suggests its possible application as flexible dielectric material for the development of biosensors, energy storage devices in field of green organic electronics. [8] We designed and fabricated terahertz toroidal dipole metasurfaces based on a C-shaped split ring resonator metallic pattern fabricated on a flexible dielectric material (mylar). [9] The synthesis of high-K flexible dielectric material is presented using two commonly used inorganic materials S and Se. [10] Consequently, it is hoped that the composites would be possessing potential applications in flexible dielectric materials owing to its enhanced dielectric constant, thermal stabilities and mechanical performances. [11]73)柔性介电材料并将其应用于微带和CPW传输线。 [1] 因此,通过适当的 BT:CNT 混合物和填料负载,我们可以生产出机械性能优越的橡胶复合材料,这些橡胶复合材料易于加工且成本低廉,适用于柔性介电材料应用。 [2] 建议 BaTiO3 陶瓷粉末增强 PVC 的介电性能,可用作柔性介电材料。 [3] 73)柔性介电材料并将其应用于微带和CPW传输线。 [4] 这些薄膜可能是用于先进电气设备(如嵌入式电容器)的潜在柔性介电材料。 [5] 具有高能量密度和显着充放电效率的柔性介电材料目前在储能领域的需求量很大。 [6] 微波柔性介电材料为现代设备以及超材料研究和技术提供了一系列有吸引力的新应用。 [7] PVA-PVP-PPy薄膜表现出的高介电常数和高交流电导率表明其可能作为柔性介电材料用于开发生物传感器、绿色有机电子领域的储能装置。 [8] 我们基于在柔性电介质材料(聚酯薄膜)上制造的 C 形开口环谐振器金属图案设计和制造了太赫兹环形偶极子表面。 [9] 使用两种常用的无机材料 S 和 Se 合成了高 K 柔性介电材料。 [10] 因此,由于其增强的介电常数、热稳定性和机械性能,希望复合材料在柔性介电材料中具有潜在的应用。 [11]
flexible dielectric film 柔性介电薄膜
Then, a flexible dielectric films with good dielectric breakdown strength and thermal conductivity was obtained through introducing the h-BN-GO fillers into poly(arylene ether nitrile). [1] Afterwards, the flexible dielectric films were employed to construct capacitive sensors by integrating the top electrode, dielectric layer, and bottom electrode into a sandwich structure. [2] Flexible dielectric films based on fluoropolymers demonstrate a high breakdown strength and dielectric constant and are considered better potential candidates for high-energy-density capacitors than is commercial biaxially oriented polypropylene (BOPP). [3] This study provides electromechanical characterization of flexible dielectric films produced by additive manufacturing and demonstrates their use as DEAP actuators. [4] In this work, the all-inorganic flexible dielectric film capacitors have been obtained. [5] In this study, we present a flexible dielectric film that can adsorb PM using triboelectricity. [6]然后,将h-BN-GO填料引入聚(亚芳基醚腈)中,获得了具有良好介电击穿强度和导热性的柔性介电薄膜。 [1] 之后,通过将顶部电极、介电层和底部电极集成到三明治结构中,使用柔性介电薄膜构建电容传感器。 [2] 基于含氟聚合物的柔性介电薄膜表现出高击穿强度和介电常数,被认为是比商业双向拉伸聚丙烯 (BOPP) 更好的高能量密度电容器的潜在候选者。 [3] 本研究提供了由增材制造生产的柔性介电薄膜的机电特性,并展示了它们作为 DEAP 致动器的用途。 [4] 在这项工作中,获得了全无机柔性介电薄膜电容器。 [5] 在这项研究中,我们提出了一种可以利用摩擦电吸附 PM 的柔性介电薄膜。 [6]
flexible dielectric substrate 柔性介电基板
In this work, an antenna on a flexible dielectric substrate for the ISM range and 2G/3G/4G standards of cellular bands was designed and numerically studied. [1] Here we report the results of thin copper films patterns micromachining using nanosecond-pulsed laser on flexible dielectric substrates. [2] We also demonstrate that the bioplastic films, as flexible dielectric substrates, are suitable for depositing conductive micropatterns of SWCNTs and Ag (1 kΩ/□ and 1 Ω/□, respectively) by means of inkjet and screen printing, with potential in printed circuit board applications. [3] In this paper, a new approach for the design and manufacture of a compact, low-profile, broadband, omni-directional and conformal antenna is presented, including the use of a customized flexible dielectric substrate with high permittivity and low loss tangent to realize the compact sensing antenna. [4] pdf Expected Outcomes • Conduct fundamental and applied research on materials development and fabrication techniques that facilitate convenient and low-cost production of flexible dielectric substrates; • Perform comprehensive parametric studies to understand the effect of design parameters on the sensor performances; • Develop a multi-variant parameter identification algorithm to facilitate extracting multiple measurands from one single antenna measurement; • Characterize wireless interrogation and sensing capability of the antenna sensor array up to 1000 oC. [5] We used polyimide film with a thickness of 100 |xm as a flexible dielectric substrate. [6]在这项工作中,设计了一种用于 ISM 范围和 2G/3G/4G 蜂窝频段标准的柔性电介质基板上的天线,并对其进行了数值研究。 [1] 在这里,我们报告了在柔性电介质基板上使用纳秒脉冲激光对薄铜膜图案微加工的结果。 [2] 我们还证明了生物塑料薄膜作为柔性介电基板,适用于通过喷墨和丝网印刷沉积 SWCNT 和 Ag(分别为 1 kΩ/□ 和 1 Ω/□)的导电微图案,在印刷电路板中具有潜力应用程序。 [3] 本文提出了一种设计和制造紧凑、薄型、宽带、全向和共形天线的新方法,包括使用定制的具有高介电常数和低损耗角正切的柔性电介质基板来实现紧凑型传感天线。 [4] pdf 预期成果 • 对材料开发和制造技术进行基础和应用研究,以促进柔性电介质基板的便捷和低成本生产; • 进行全面的参数研究,了解设计参数对传感器性能的影响; • 开发一种多变量参数识别算法,以便于从单个天线测量中提取多个被测量; • 表征高达 1000 oC 的天线传感器阵列的无线询问和传感能力。 [5] 我们使用厚度为 100 |xm 的聚酰亚胺薄膜作为柔性介电基板。 [6]
flexible dielectric polymer 柔性介电聚合物
Flexible dielectric polymer nanocomposites have been widely investigated in recent years due to their potential application in electronic devices. [1] Flexible dielectric polymer composites occupy a significant position in electronic devices. [2] Flexible dielectric polymer composites have been of great interest as embedded capacitor materials in the electronic industry. [3] It can be a promising flexible dielectric polymer to fulfill needs in modern electronic applications. [4] Peano-HASEL actuators are comprised of pouches, which are made of flexible dielectric polymer films, filled with a liquid dielectric, and covered with flexible electrodes. [5]近年来,柔性介电聚合物纳米复合材料因其在电子器件中的潜在应用而受到广泛研究。 [1] 柔性介电聚合物复合材料在电子器件中占有重要地位。 [2] 柔性介电聚合物复合材料作为电子工业中的嵌入式电容器材料引起了极大的兴趣。 [3] 它可以成为一种有前途的柔性介电聚合物,以满足现代电子应用的需求。 [4] Peano-HASEL 执行器由小袋组成,这些小袋由柔性介电聚合物薄膜制成,填充有液体电介质,并覆盖有柔性电极。 [5]
flexible dielectric layer
These flexible pressure sensors have different dielectrics and are designed to be a sandwich structure, which consists of a top electrode, flexible dielectric layer and a bottom electrode. [1] 2 nm, which is the lowest EOT obtained from a flexible dielectric layer to date. [2] In addition, by substituting the middle layers with flexible dielectric layer, we successfully design a flexible metamaterial absorber for conformal applications. [3]这些柔性压力传感器具有不同的电介质,被设计成三明治结构,由顶部电极、柔性介电层和底部电极组成。 [1] 2 nm,这是迄今为止从柔性介电层获得的最低 EOT。 [2] 此外,通过用柔性介电层代替中间层,我们成功地设计了一种用于保形应用的柔性超材料吸收器。 [3]
flexible dielectric sensor
Flexible dielectric sensors received significant interest for real-time在过去十年中,柔性介电传感器在聚合复合材料的实时<斜体>原位</斜体>固化监测方面受到了极大的关注。 [1] 本文介绍了一种新型柔性介电传感器的分析和设计,该传感器可以集成到复合材料制造过程中以测量树脂的正面流动。 [2]
flexible dielectric capacitor
With rapid advances in flexible electronics and communication devices, flexible dielectric capacitors exhibiting high permittivity, low loss, and large electric-field tunability over a wide frequency range have attracted increasing attention. [1] Our work not only proves that, antiferroelectric nanoparticles are excellent fillers that can be comparable to, or even better than, ferroelectric nanowires and nanofibers prepared by very complicated methods, for energy-storage inorganic/polymer dielectric composites, but also provides a convenient and effective way to prepare and design flexible dielectric capacitors with superior energy storage capacity. [2]随着柔性电子和通信设备的快速发展,柔性介电电容器在宽频率范围内表现出高介电常数、低损耗和大电场可调谐性,引起了越来越多的关注。 [1] 我们的工作不仅证明了反铁电纳米粒子是一种优异的填料,可以媲美甚至优于通过非常复杂的方法制备的铁电纳米线和纳米纤维,用于储能无机/聚合物介电复合材料,而且为储能无机/聚合物介电复合材料提供了一种方便有效的方法。制备和设计具有优异储能能力的柔性介电电容器的方法。 [2]
flexible dielectric barrier 柔性介电势垒
A flexible dielectric barrier discharge (DBD) was developed as an alternative antimicrobial treatment for chronic wounds. [1] The objective of this study was to investigate pathogen reduction and quality changes in sliced cheddar cheese treated with inkjet-printed flexible dielectric barrier discharge (FXDBD) plasma. [2]开发了一种柔性电介质阻挡放电 (DBD) 作为慢性伤口的替代抗菌治疗方法。 [1] 本研究的目的是研究用喷墨打印的柔性介质阻挡放电 (FXDBD) 等离子体处理的切达干酪切片的病原体减少和质量变化。 [2]
flexible dielectric composite 柔性介电复合材料
In this work, we report a novel flexible dielectric composite film consisting of poly (vinylidene fluoride-co-hexafluoropropylene) (P(VDF-HFP)) and dopamine-modified metal-organic frameworks Co3 [Co(CN)6]2 (D-M) with excellent capacitive performance for energy storage application. [1] In this study, flexible dielectric composite films are reported by semiconductor nanofibers as fillers and PVDF as matrix. [2]在这项工作中,我们报道了一种由聚(偏二氟乙烯-co-六氟丙烯)(P(VDF-HFP))和多巴胺改性金属有机骨架 Co3 [Co(CN)6]2 (D-M) 组成的新型柔性介电复合薄膜。 ) 具有出色的电容性能,适用于储能应用。 [1] 在这项研究中,以半导体纳米纤维作为填料,PVDF 作为基体,报道了柔性介电复合薄膜。 [2]