QTSS Quantum Materials
Lead Participant:
LUSSTECH LIMITED
Abstract
We have developed novel **Quantum Materials** and '**simple printable, cost-effective, energy-efficient** **more enviro-friendly** **Quantum Sensors'** for pressure sensing. They can also be used for '**supercapacitors**' (crucial components in efficient energy storage and faster charging times). They can be manufactured large scale and cost-effectively and applied to different substrates including flexible textiles, paper and recyclable ones. These capacitors can store & release energy quickly making them ideal for applications requiring rapid energy discharge.
**Being Magnetite based they are enviro-friendly, more sustainable to manufacture and can be easily recycled.**
They are processed and engineered to precisely control quantum-mechanical effects on small numbers of particles to produce unique **high sensitivity** and **vast range** sensing capabilities.
Conduction is achieved via tunnelling of electrons through insulative barriers around the magnetite particles.
**The benefits of harnessing quantum are:**
- High sensitivity
- Vast ranges
- Energy efficiency
- Low power consumption
- Low latency
As the world struggles with the challenges of climate-change and the need for sustainable energy solutions, the development and adoption of innovative enviro-friendly Quantum Materials with exciting physical properties **arising from the quantum mechanical properties of their constituent electrons** is increasingly important. Such materials have great scientific& technological potential.
There is a market requirement for more enviro-friendly, sustainable and recyclable technology solutions that reduce environmental impact.
**Being Magnetite based they are enviro-friendly, more sustainable to manufacture and can be easily recycled.**
They are processed and engineered to precisely control quantum-mechanical effects on small numbers of particles to produce unique **high sensitivity** and **vast range** sensing capabilities.
Conduction is achieved via tunnelling of electrons through insulative barriers around the magnetite particles.
**The benefits of harnessing quantum are:**
- High sensitivity
- Vast ranges
- Energy efficiency
- Low power consumption
- Low latency
As the world struggles with the challenges of climate-change and the need for sustainable energy solutions, the development and adoption of innovative enviro-friendly Quantum Materials with exciting physical properties **arising from the quantum mechanical properties of their constituent electrons** is increasingly important. Such materials have great scientific& technological potential.
There is a market requirement for more enviro-friendly, sustainable and recyclable technology solutions that reduce environmental impact.
Lead Participant | Project Cost | Grant Offer |
---|---|---|
LUSSTECH LIMITED | £15,384 | £ 15,384 |
  | ||
Participant |
||
UNIVERSITY OF OXFORD | £34,146 |
People |
ORCID iD |
Josephine Charnley (Project Manager) |