Nanotechnology And Nanomaterials Electronics Market
Browse: Nano Markets
Report contents include:
Nanomaterials development in the electronics sector utilizing the following materials:
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Report Summary
Nanomaterials are being
widely applied in the electronics and computing industry, primarily
arising from the need to create smaller, faster microchips and memory
devices, as well as offering improved performance for displays and
sensors. Application of nanotechnology in integrated circuits is leading
to improvements in processor density and performance, energy efficiency
and reliability. Intel is currently utilising an atomic layer
deposition process to deposit high-k materials in the fabrication of 45
nm chips.
Organic light-emitting diodes (OLEDs) are also beginning to impact the market, enabling low power, flexible displays with high performance capabilities. Quantum dot displays with tunability that enables high-performance color are also close to market. Nanomaterials are also being integrated into Field Emission Displays (FED), and Surface-conductive Electron-emissive Displays (SED), which are not on the market as yet as opposed to commercially available OLED displays in portable electronic applications such as mobile phone screens and laptops.
Organic light-emitting diodes (OLEDs) are also beginning to impact the market, enabling low power, flexible displays with high performance capabilities. Quantum dot displays with tunability that enables high-performance color are also close to market. Nanomaterials are also being integrated into Field Emission Displays (FED), and Surface-conductive Electron-emissive Displays (SED), which are not on the market as yet as opposed to commercially available OLED displays in portable electronic applications such as mobile phone screens and laptops.
Browse: Nanotechnology Market
Nanomaterials have potential to meet a wide range of memory device needs including speed, power consumption, density, reliability, non-volatility, and cost. There are a number of nanotechnology-based approaches to the development of data storage; Magnetoresistive Random Access Memory (MRAM), Ferroelectric RAM, (FeRAM), Resistive RAM (RRAM), and NRAM (Nanotube RAM). Moore’s Law dictates that these current devices will inevitably rely on emerging nanotechnology, be it in materials or fabrication. Carbon nanotubes and nanocrystals are utilized for their radiation and temperature intolerance, high speed capabilities and long-term scaling potential. Companies such as Samsung and Nanosys are using nanocrystal memory to extend floating gate or charge trap flash memory structures.
Nanomaterials have potential to meet a wide range of memory device needs including speed, power consumption, density, reliability, non-volatility, and cost. There are a number of nanotechnology-based approaches to the development of data storage; Magnetoresistive Random Access Memory (MRAM), Ferroelectric RAM, (FeRAM), Resistive RAM (RRAM), and NRAM (Nanotube RAM). Moore’s Law dictates that these current devices will inevitably rely on emerging nanotechnology, be it in materials or fabrication. Carbon nanotubes and nanocrystals are utilized for their radiation and temperature intolerance, high speed capabilities and long-term scaling potential. Companies such as Samsung and Nanosys are using nanocrystal memory to extend floating gate or charge trap flash memory structures.
Browse: Nano Markets
Report contents include:
Nanomaterials development in the electronics sector utilizing the following materials:
- Metal oxide nanopowders
- Carbon nanotubes
- Fullerenes and POSS
- Graphene
- Nanofibers
- Nanosilver
- Nanowires
- Nanobuds
- Quantum dots
Applications of nanomaterials in the following electronics sector sub-markets:
- Coatings and films
- Data storage and processing
- Displays
- Electronics packaging
- Field emission devices
- Printable and flexible electronics
Profiles of companies developing products and applications for the electronics sector utilizing nanomaterials and nanotechnology
Browse: Market Research Reports
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