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Results 501 - 510 of 548 for Atomic Layer Deposition
  • Photonics Development and Promotion throughout Europe
    Article - 15 Aug 2006
    The growing need to develop and apply new photonic technologies represents an opportunity for the North East of England, one that aligns firmly with One NorthEast's strategic focus to build and...
  • Commercialising Small-Scale and Nanotechnologies
    Article - 15 Nov 2005
    CPI is the driving force behind a number of the UK's North East strategic R&D initiatives. Each of CPI' programmes focuses on bringing cutting edge technology research to the region, which can be...
  • Unlocking Quantum Potential in Hexagonal Boron Nitride
    Article - 23 Aug 2024
    Hexagonal boron nitride (hBN) is emerging as a key material in quantum technologies, offering unique properties for quantum sensing, single-photon emitters, and global quantum networks, with...
  • A Guide to Semiconductor Chip Layers
    Article - 5 Jul 2024
    Semiconductors, the backbone of modern electronics, are created through intricate processes involving materials like silicon and technologies such as photolithography and doping.
  • Recent Advances in Twisted Bilayer Graphene
    Article - 26 Jun 2024
    Twisted bilayer graphene (tBLG) exhibits unique electronic and optical properties, including superconductivity, influenced by moiré patterns and twist angles, opening new possibilities in material...
  • Nanoimprint Lithography: Methods and Material Requirements
    Article - 17 Jun 2024
    Nanoimprint lithography (NIL) employs advanced methods and diverse materials for high-resolution, cost-effective nanoscale patterning. This technology revolutionizes the semiconductor industry,...
  • A History of the Semiconductor Chip
    Article - 30 May 2024
    Exploring the evolution of semiconductor technology, from early developments to modern manufacturing processes, applications across industries, and future trends.
  • What is a Graphene Field Effect Transistor?
    Article - 24 May 2024
    Graphene Field Effect Transistors (GFETs) show promise for future electronics. They offer high-speed performance, enhanced sensitivity, and applications in biosensing, flexible devices, and more.
  • Graphene-Based Electron Microscopy Grids
    Article - 17 May 2024
    Graphene grids enhance electron microscopy imaging with high uniformity, inertness, and mechanical strength, ideal for high-resolution biological samples.
  • What Are Graphene Nanoribbons?
    Article - 1 May 2024
    Graphene nanoribbons (GNRs) show promise for advanced electronics and photonics, with tunable properties and challenges in scalable fabrication.

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