Introduction to Flexible Displays
Sentence Examples
Discover more insights into Flexible Displays
Keywords frequently search together with Flexible Displays
Narrow sentence examples with built-in keyword filters
Flexible Displays sentence examples within Generation Flexible Displays
Flexible Displays sentence examples within Future Flexible Displays
Compared to flat wafers, deposition on substrates with microstructures has a wider range of applications such as photovoltaic cells, electronics, flexible displays, etc.
Full Text
In recent years, organic light-emitting diodes have emerged as state-of-the-art technology for digital screens and portable devices and are enabling new applications with flexible displays.
Full Text
The ZnO nanostructures can be used in applications such as foldable or re-formable power sources, artificial skins, touch sensors, and flexible displays.
Full Text
For flexible displays, there is a desperate need for a broadband coatable polarizer that can absorb light in a specific direction.
Full Text
Light-emitting transistors (LETs) have attracted tremendous academic and industrial interest due to their dual functions of electrical switching and light emission in a single device, which can considerably reduce system complexity and manufacturing costs, especially in the area of flat panel and flexible displays as well as lighting and lasers.
Full Text
Electrochromic devices offer many technological applications, including flexible displays, dimmable mirrors, and energy-efficient windows.
Full Text
Finally, applications of TCS fabrics in temperature management and dynamic textile displays are demonstrated, confirming their application potential in smart textiles, wearable devices, flexible displays, and human–machine interfaces.
Full Text
7 V, which is below the human safe voltage, showing great potential in a wide range of applications, such as flexible displays, energy-saving smart windows, and wearable advanced textiles.
Full Text
The triple-layered and substrate-free ECD with excellent flexibility and wearability could serve as futuristic electronics used for multiple purposes, like flexible displays, camouflage wearables and medical monitoring, etc.
Full Text
Based on these results, the semiconductor light source using a nanosized rod structure can be applied to various fields, such as flat or flexible displays and smart lighting.
Full Text
Those fluorescent nanofibers pave the way for the development of promising textile fluorescence materials, such as flexible displays, photonics and optical devices.
Full Text
OFETs are considered key components to fabricate flexible and printable devices for promising applications, such as flexible displays, chemical sensors, wearable devices, and radio frequency identification (RFID) tags.
Full Text
They can be incorporated into a wide range of applications from biomedical sensors, image sensors, flexible microprocessors, photovoltaics to flexible displays, etc.
Full Text
Therefore, this TIZZBP film will be very useful for various displays including vehicle-mounted displays and flexible displays.
Full Text
As one of the most important organic electronic building block, organic field-effect transistors (OFETs) have broad application prospects in the fields of flexible displays, electronic skins, and wearable devices.
Full Text
Wearables and flexible displays are some application examples.
Full Text
Recent years have seen the development of display technology with the transformation from flat to flexible displays.
Full Text
Graphene is extremely thin, which exhibits extraordinary mechanical, physical and electrical properties, such that there are applications for this material in batteries and flexible displays.
Full Text
The functionalization of silks makes them more versatile for flexible displays and visible bioscaffolds.
Full Text
Therefore, these films can be applied in various industries such as flexible displays, medical, automobiles, functional textiles, and aerospace.
Full Text
Under these conditions, effective material adhesion performance was achieved while retaining optical transparency and thus fulfilling the dual property requirement for non-opaque material adhesiveness necessary for use in flexible displays.
Full Text
In addition, facile tailoring of physical and chemical attributes of these materials leads to multifunctionality that allows their applications in different areas, like sensing, energy, and flexible displays.
Full Text
Such graphene-based materials can find uses in many applications, including flexible displays, batteries, supercapacitors, solar panels, and mobile devices.
Full Text
Almost all NDIs possess high electron affinity, good charge carrier mobility, and excellent thermal and oxidative stability, making them promising candidates for applications in organic electronics, photovoltaic devices, and flexible displays.
Full Text
Mechanically flexible optoelectronic devices such as flexible displays, touch-screens, wearable electronics and solar cells are attracting significant commercial interest.
Full Text
This novel 3D packaging strategy may pave the way for developing high-performing SCs with wide operating voltage and high energy density for flexible displays, wearable equipment and integrated electrical devices.
Full Text
The R2R-sputtered SiOC films also demonstrated outstanding flexibility, which is a key requirement of foldable and flexible displays.
Full Text
This methodology will enable the automated design of electronic circuits for applications such as wearable sensors, low-cost radio-frequency identification tags, or flexible displays.
Full Text
This work shows that the substitution of the brittle Mo interlayer with a more ductile Mo-Ta interlayer can improve the performance and lifetime of the electrodes and is more suitable for flexible displays than the currently used materials.
Full Text
Applications such as wearable electronics and flexible displays have led to considerable advancement in flexible electronic materials.
Full Text
Natural creatures can always provide perfect strategies for excellent antireflection (AR), which is valuable for photovoltaic industry, optical devices, and flexible displays.
Full Text
Next-generation electronics can no longer solely rely on conventional materials; miniaturization of portable electronics is pushing Si-based semiconductors and metallic conductors to their operational limits, flexible displays will make common conductive metal oxide materials obsolete, and weight reduction requirement in the aerospace industry demands scientists to seek reliable low-density conductors.
Full Text
Therefore, the enhanced performance of the FOLED devices fabricated on PFI-PEDOT:PSS anodes could be applicable to flexible displays.
Full Text
In this way, a variety of composite films and materials fabricated by low-pressure dual-spray deposition could be applied in applications such as flexible displays and solar cells.
Full Text
The type 304 stainless steel will be widely applied as one of the substrate materials of the flexible displays.
Full Text
Polyimide (PI) films with ultralow coefficient of thermal expansion (CTE) and high glass transition temperature (Tg) are in great demand for applications as substrates in flexible displays.
Full Text
These findings are important for solid-state lighting, information display systems, flexible displays, and wearable displays.
Full Text
This novel strategy of post-synthetic color-tuning using triplatinum systems should enable the facile preparation of colorful electrochromic devices without any complicated procedures, which may find application in flexible displays, optical devices, and sensors.
Full Text
Charge carrier transport in organic semiconductors is at the heart of many revolutionary technologies ranging from organic transistors, light-emitting diodes, flexible displays and photovoltaic cells.
Full Text
Transparent conductive electrodes (TCEs) based on hybrid structures (silver nanowires) have been compressively reconnoitered in next-generation electronics such as flexible displays, artificial skins, smart windows, and sensors because of their admirable conductivity as well as flexibility, which make them favorable substitutes to replace ITO (indium tin oxide) as a transparent conductor.
Full Text
Solution-processed organic light-emitting diodes (OLEDs) based on thermally activated delayed fluorescence (TADF) emitters have great prospects for large area solid-state lighting and flexible displays due to low-cost fabrication and a simple production technique.
Full Text
A lso, facile tailoring of solution-based metal oxides leads to multifunctionality allowing their application in different a reas, like sensing, energy and flexible displays.
Full Text
This work provides a new route to fabricate functional composite materials and devices which have promising potential for electronics applications in flexible displays, tactile skin sensors, and other fields.
Full Text
The mechanical and electrical limits of magnetron sputter deposited Al/Mo bilayer thin film systems were tested for their potential use in flexible displays and sensors.
Full Text
At present, both flexible displays and lighting panels are being mass produced (Samsung and LG on displays, LG and Konica Minolta on lighting).
Full Text
Flexible electronics have received considerable attention in academies and industries for their promising applications in enormous fields, such as flexible displays, wearable sensors, artificial skins, and flexible energy devices.
Full Text
However, PQD LEDs using graphene electrodes have not been reported despite their huge potential for applications in flexible displays and lighting sources.
Full Text
Flexible lithium-ion batteries (LIBs) can be seamlessly integrated into flexible devices, such as flexible displays, wearable devices, and smart cards, to provide power for steady operation under mechanical deformation.
Full Text
Modulating optoelectronic properties of thin film is in great demand due to their high potential application in LED’s, flexible displays, transparent electrodes and solar cell.
Full Text
Flexible and degradable pressure sensors have received tremendous attention for potential use in transient electronic skins, flexible displays, and intelligent robotics due to their portability, real-time sensing performance, flexibility, and decreased electronic waste and environmental impact.
Full Text
Finally, we present an outlook for future opportunities of PCMs, including all-photonic memories and processors, flexible displays with nanopixel resolution and nanoscale switches and controllers.
Full Text
The resulting functionalities can advance a broad range of transformative technologies, such as wearable sensors that respond to physiological stimuli, flexible displays, batteries and catalysts with enhanced control over ion and electron transport, etc.
Full Text
Flexible displays, electronic textiles, bio-inspired sensors, and wearable or implantable medical devices, just to name a few, are out-of-reach applications for the rigid form factor of conventional wafer-based electronics.
Full Text
With recent strong interests in flexible displays and wearable devices allowing them to be mechanically robust against deformation, sensors and actuators for human-machine interfaces are required to be soft to be embedded into flexible mechanisms.
Full Text
Among all different applications investigated in this area, flexible displays have gained significant attention, being a vital part of large-area devices, portable systems and electronic labels etc electrophoretic (EP) ink displays have outstanding properties such as a superior optical switch contrast and low power consumption, besides being compatible with flexible electronics.
Full Text
Owing to its low-processing temperature, superior electrical performance, and low cost, TFTs with the proposed TAL channel configuration are highly promising for flexible displays where the polymeric substrates are heat-sensitive and a low processing temperature is desirable.
Full Text
Inorganic boron-based nanostructures have great potential for field emission (FE), flexible displays, superconductors, and energy storage because of their high melting point, low density, extreme hardness, and good chemical stability.
Full Text
Flexible sensors and peripheral CNT-TFT circuits, such as decoders, drivers and sense amplifiers, can be printed and hybrid-integrated with thinned (<50µm) silicon chips on soft, thin, and flexible substrates for a wide range of applications from flexible displays to wearable medical devices.
Full Text
Therefore, this study contributes to the development of planar and parallel LC alignments on PS derivatives and can be used in the next-generation display industry for the production of flexible displays.
Full Text
For flexible displays, recovery and relaxation of acrylic pressure-sensitive adhesives (PSA) must be enhanced; however, only a few studies have focused on their optimization.
Full Text
Intrinsic polyimides (PIs) with high glass transition temperature (Tg), excellent thermal stability, and favorable mechanical properties have been in great demand in recent years with the rapid development of flexible displays.
Full Text
In addition, the Zn-ion battery can tolerate severe mechanical bending with superior capacity retention, which is promising to power wearable electronics and flexible displays.
Full Text
The development of full-color/white carbon-dot-based light-emitting diodes (LEDs) has been achieved, which show promising applications in full-color and flexible displays, backlights, and novel lighting sources.
Full Text
[5–12] Particularly the resistance-type pressure sensor, which is based on the correlation between the resistance change and mechanical deformation, has attracted more attention in recent years due to its wide potential applications including soft robotics, wearable devices, touch-on flexible displays, and health monitoring systems.
Full Text
The development of organic semiconductors (OSCs) applicable to organic field-effect transistors (OFETs) is crucial to realizing printed and flexible electronics, such as flexible displays and low-priced identification tags.
Full Text
Flexible Organic Field-Effect Transistors (OFETs) constitute nowadays a highly promising field of the organic and printed electronics due to their multiple applications (flexible displays, sensors etc.
Full Text
While preliminary, individual ZnO:Ga MWs being treated as efficient incandescent light sources, can also open up intriguing scientific questions, and possible applications of linear, transparent, flexible displays and optical interconnects with electronic circuits.
Full Text
Utilisation of light emitting diodes (LEDs) and printed electroluminescent elements for manufacturing of flexible displays to be integrated in textile items was analysed.
Full Text
This is due, inter alia, to the large expansion of the wearable electronic market, flexible displays and the robotic applications where robots are developed to better interact with the external environment through physical contact via the use of tactile sensors.
Full Text
Flexible and stretchable conductive materials have received significant attention in several applications such as flexible displays and sensors.
Full Text
Flexible displays and lightings have attracted tremendous attention recently.
Full Text