Flexible Glass(柔性玻璃)研究综述
Flexible Glass 柔性玻璃 - Bulks (3D), thin/thick films (2D), flexible glass (2D), powders (2D), fibers (1D), and nanoparticles (NPs) (0D) are examples of possible inorganic glass architectures able to integrate smart materials and opto-electronic devices, leading to added-value products in a wide range of markets. [1] A hydrogen-plasma-etching-based plasma-enhanced chemical vapor deposition (PECVD) synthesis route without metal catalyst for preparing the graphene films on flexible glass is developed. [2] This paper reports the development of mechanically flexible reflective coatings of Cu–Al intermetallic alloy on flexible glass (FG) substrates for possible concentrated solar power application. [3] Up to now, metal foil, flexible glass, and plastic film have been commonly used as flexible substrates for FOLEDs. [4] To overcome their long-standing tradeoff between high Ue and low Ul, a series of flexible glassy poly(styrene-methyl methacrylate-methallyl alcohol) (P(St-MMA-MAA)) terpolymers with promising dielectric and physical properties, including improved tunable permittivity (3–6 range), thermal stability, and processability, are investigated and compared to the commercially available state-of-the-art polymer dielectric, i. [5]块体 (3D)、薄/厚膜 (2D)、柔性玻璃 (2D)、粉末 (2D)、纤维 (1D) 和纳米粒子 (NPs) (0D) 是可能的无机玻璃架构的示例,这些架构能够集成智能材料和光电设备,从而在广泛的市场中产生附加值产品。 [1] 开发了一种基于氢等离子体蚀刻的等离子体增强化学气相沉积 (PECVD) 合成路线,无需金属催化剂,用于在柔性玻璃上制备石墨烯薄膜。 [2] 本文报道了在柔性玻璃 (FG) 基板上的 Cu-Al 金属间合金的机械柔性反射涂层的发展,用于可能的集中太阳能应用。 [3] 到目前为止,金属箔、柔性玻璃和塑料薄膜已被普遍用作 FOLED 的柔性基板。 [4] 为了克服长期以来在高 Ue 和低 Ul 之间的权衡,一系列柔性玻璃状聚(苯乙烯-甲基丙烯酸甲酯-甲基烯丙醇)(P(St-MMA-MAA))三元共聚物具有良好的介电和物理性能,包括改进的可调研究了介电常数(3-6 范围)、热稳定性和可加工性,并与市售的最先进的聚合物电介质 i. [5]
Ultrathin Flexible Glass
016O2/ZrO2 coating deposited on ultrathin flexible glass using a pulsed magnetron sputtering without any substrate bias voltage and post-deposition annealing. [1] Ultrathin flexible glass is a material with fascinating properties. [2] Here we describe thermally and mechanically stable near-ultraviolet (near-UV) transparent and conducting films on ultrathin flexible glass produced from Zn/Al complex-SWCNT inks by bar coating. [3]016O2/ZrO2 涂层使用脉冲磁控溅射沉积在超薄柔性玻璃上,无需任何衬底偏置电压和沉积后退火。 [1] 超薄柔性玻璃是一种具有迷人特性的材料。 [2] 在这里,我们描述了由 Zn/Al 复合物-SWCNT 油墨通过棒涂法生产的超薄柔性玻璃上的热和机械稳定的近紫外(近紫外)透明和导电薄膜。 [3]
Thick Flexible Glass
The architecture of the stack includes 100-µm thick flexible glass as the front surface over the EDS film which is laminated on the solar collectors. [1] In this work, TCEs based on modified high-conductivity PEDOT:PSS on 100 mu m-thick flexible glass substrates are used as the anode for organic solar cells. [2]该堆栈的架构包括 100 µm 厚的柔性玻璃作为前表面,覆盖在 EDS 薄膜上,该薄膜层压在太阳能集热器上。 [1] 在这项工作中,在 100 微米厚的柔性玻璃基板上基于改性高导电性 PEDOT:PSS 的 TCEs 被用作有机太阳能电池的阳极。 [2]
Thin Flexible Glass
Graphene quantum dots decorated zinc oxide nanowires (GQDs@ZnO-NWs) were applied to enhance sensing performance of highly flexible and transparent surface acoustic wave (SAW) ultraviolet (UV) photodetectors made on ultra-thin flexible glass. [1] The authors have designed and tested prototype thin-film thermoelectric devices based on 100–500 nm thick layers of n-type ZnO fabricated with atomic layer deposition on different substrate materials: oxidized silicon, polyethylene naphtalate plastics, and thin flexible glass. [2]石墨烯量子点装饰的氧化锌纳米线 (GQDs@ZnO-NWs) 用于增强在超薄柔性玻璃上制成的高度灵活和透明的表面声波 (SAW) 紫外 (UV) 光电探测器的传感性能。 [1] 作者设计并测试了原型薄膜热电器件,该器件基于 100-500nm 厚的 n 型 ZnO 层,通过原子层沉积在不同的基板材料上制造:氧化硅、聚萘二甲酸乙二醇酯塑料和薄柔性玻璃。 [2]
flexible glass substrate
Herein, we use a copper-foam-assisted plasma-enhanced CVD approach to harness the direct formation of flexible graphene glass materials at temperatures below the softening points of various flexible glass substrates. [1] Stoichiometric Ni2MnGa alloy thin films prepared by DC magnetron sputtering techniques on flexible glass substrates were investigated by X-ray diffraction (XRD) and X-ray stress analyses (XSA) measurements. [2] In this work, TCEs based on modified high-conductivity PEDOT:PSS on 100 mu m-thick flexible glass substrates are used as the anode for organic solar cells. [3]在此,我们使用泡沫铜辅助等离子体增强 CVD 方法在低于各种柔性玻璃基板软化点的温度下直接形成柔性石墨烯玻璃材料。 [1] 通过 X 射线衍射 (XRD) 和 X 射线应力分析 (XSA) 测量研究了通过直流磁控溅射技术在柔性玻璃基板上制备的化学计量 Ni2MnGa 合金薄膜。 [2] 在这项工作中,在 100 微米厚的柔性玻璃基板上基于改性高导电性 PEDOT:PSS 的 TCEs 被用作有机太阳能电池的阳极。 [3]
flexible glass fibre
After thorough clinical and radiographic examination, it was decided to reinforce the use of flexible glass fibre post and incorporate the same as tags to engage E chain to facilitate orthodontic tooth extrusion followed by prosthetic rehabilitation. [1] The technique was also able to highlight differences in performance between two different liners, pultruded glass reinforced polyester resin and a flexible glass fibre sheet, with the latter showing improved resistance. [2]经过彻底的临床和影像学检查,决定加强使用柔性玻璃纤维桩,并加入与标签相同的 E 链,以促进正畸牙齿挤出,然后进行修复修复。 [1] 该技术还能够突出两种不同衬里(拉挤玻璃增强聚酯树脂和柔性玻璃纤维板)之间的性能差异,后者显示出更高的阻力。 [2]