Porous Hybrid Metal Halide Semiconductors

Tech ID: 23T020

­Advantages:

  • Size-Selective Catalytic Performance, Advanced Gas Separation/Sensing
  • Tailored Material Properties, Solid-State Batteries
  • Photonics and Waveguides

Summary:

This innovative and versatile technology has the remarkable ability to transcend multiple industries, empowering startups to revolutionize energy storage and environmental technology, pharmaceutical manufacturers to optimize production, and manufacturers to spearhead advancements in advanced optics and clean energy solutions. Investment firms play a pivotal role in fostering growth and expanding market reach. What sets this approach apart is its capacity to dramatically broaden the applications of these materials beyond traditional photovoltaics and LEDs. It achieves this by enhancing the materials' active surface area, enabling size-selective catalytic performance, transforming them into effective catalysts and photocatalysts, and improving their environmental stability for gas separation applications. This groundbreaking strategy opens a wide spectrum of possibilities, ranging from gas storage and sensing to the development of photonic crystals, integrated waveguides, and solid-state batteries, establishing it as a pioneering technology in the field of advanced materials science.

Left: Part of the crystal structure of (DHS)2Pb5Br14 showcasing the porous nature and gas separation properties. Right: Absorption and emission spectra of the corresponding material at RT.

Desired Partnerships:

  • License
  • Sponsored Research
  • Co-Development

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