Spin-based nanolytics – Turning today’s quantum technology research frontier into tomorrow’s diagnostic devices

Provider

Ministry of Education, Youth and Sports

Programme

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Call for proposals

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Main participants

Ústav organické chemie a biochemie AV ČR, v. v. i.

Contest type

M2 - International cooperation

Contract ID

MSMT-9964/2018-2/4

Project name in Czech

Spin-based nanolytics – Turning today’s quantum technology research frontier into tomorrow’s diagnostic devices

Annotation in Czech

Objective 1: NanoSpin will push the sensitivity limit of NMR spectroscopy to single molecules while maintaining a spectral resolution sufficient to resolve chemical shifts and J-couplings using the quantum interaction of the colour centre and the nuclei in the molecule (nanoscale-NMR) to enable disruptive new quantum experiments. Objective 2: NanoSpin will integrate its transformative quantum-based hyperpolarisation technology with ESR-on-a-chip, NMR-on-a-chip and lab-on-a-chip technology (HyperNMR-on-a-chip) to provide a functionality and performance greatly exceeding that of today’s benchtop spectrometers in miniaturised, portable units at sufficiently low costs to turn the field of spin-based analytics from an expert laboratory technology to a widely used in-field method with new applications in personalized medicine and home diagnostics. Objective 3: NanoSpin will integrate its transformative quantum-based hyperpolarisation technology into commercial high-end NMR spectrometers to reduce 1’000 to 10’000-fold the measurement time in standard NMR experiments to open up entirely new application scenarios for NMR including, e.g. MR-based metabolomics and MR-based drug screening for which the throughput of today’s instruments is prohibitively small. Moreover, the new possibilities associated with the greatly reduced measurement times can be used to study fundamental questions in structural biology such as protein folding near surfaces.

R&D category

ZV - Basic research

OECD FORD - main branch

10401 - Organic chemistry

OECD FORD - secondary branch

10401 - Organic chemistry

OECD FORD - another secondary branch

10401 - Organic chemistry

CEP - equivalent branches <br>(according to the <a href="http://www.vyzkum.cz/storage/att/E6EF7938F0E854BAE520AC119FB22E8D/Prevodnik_oboru_Frascati.pdf">converter</a>)

CC - Organic chemistry

Provider evaluation

V - Vynikající výsledky projektu (s mezinárodním významem atd.)

Project results evaluation

The project was focused on the use of optical defects in diamond for quantum measurements and manipulation of spin optical states. A new method for generation of NV centers was established and use of defected nanodiamonds for hyperpolarization and practical measurements was studied.

Realization period - beginning

Jan 1, 2018

Realization period - end

Feb 28, 2021

Project status

U - Finished project

Latest support payment

Feb 26, 2020

Confidentiality

S - Úplné a pravdivé údaje o projektu nepodléhají ochraně podle zvláštních právních předpisů

Data delivery code

CEP22-MSM-8C-U

Data delivery date

Jun 29, 2022

Total approved costs

3,720 thou. CZK

Public financial support

3,720 thou. CZK

Other public sources

0 thou. CZK

Non public and foreign sources

0 thou. CZK