SuperMaMa | Superconducting Mass Spectrometry and Molecule Analysis

Summary
Mass spectrometry has become a multi-billion dollar market word-wide, because it allows one to quantitatively assess the molecular content of a sample and to retrieve molecular structure information.
SUPERMAMA now aims at breaking new scientific grounds for new technologies that shall boost the capabilities of mass spectrometry as well as of optical spectroscopy. Here we specifically target singly charged and neutral high-mass proteins.
SUPERMAMA will develop, test and combine the first integrated superconducting nanowire array (SNWA) with advanced cryogenic onboard electronics in a largely re-modelled ESI-TOF-machine. The efficient detection of massive biomolecules at low kinetic energy will be an important first milestone for mass spectrometry.
The development of a new generation of photocleavable tags shall allow the preparation of neutral protein beams from mass-selected ions in focused transverse high-power laser fields.
Photo-cleavage post-ionization of tagged proteins shall also be studied as a generic tool to decouple the volatilization from the charging process. This will enable the combination of a systematic analysis of neutral proteins in the gas phase with subsequent mass spectroscopy.
The combination of all techniques shall open new avenues for few-photon calorimetry and single-photon recoil spectroscopy. The calorimetry studies will explore the sensitivity of SNWA detection to molecular heat. Future experiments will study the shift of molecular matter-wave interference fringes caused by the recoil of a single photon.
Two industrial and three academic research teams represent a highly interdisciplinary consortium of experts from mass spectrometry, superconductor technology, integrated electronic engineering, synthetic chemistry, as well as molecular beam physics and quantum optics who work together in towards their joint goal to advance mass spectrometry and optical spectroscopy in a domain that has remained unexplored so far.
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More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/860713
Start date: 01-01-2020
End date: 30-06-2023
Total budget - Public funding: 2 841 418,75 Euro - 2 841 418,00 Euro
Cordis data

Original description

Mass spectrometry has become a multi-billion dollar market word-wide, because it allows one to quantitatively assess the molecular content of a sample and to retrieve molecular structure information.
SUPERMAMA now aims at breaking new scientific grounds for new technologies that shall boost the capabilities of mass spectrometry as well as of optical spectroscopy. Here we specifically target singly charged and neutral high-mass proteins.
SUPERMAMA will develop, test and combine the first integrated superconducting nanowire array (SNWA) with advanced cryogenic onboard electronics in a largely re-modelled ESI-TOF-machine. The efficient detection of massive biomolecules at low kinetic energy will be an important first milestone for mass spectrometry.
The development of a new generation of photocleavable tags shall allow the preparation of neutral protein beams from mass-selected ions in focused transverse high-power laser fields.
Photo-cleavage post-ionization of tagged proteins shall also be studied as a generic tool to decouple the volatilization from the charging process. This will enable the combination of a systematic analysis of neutral proteins in the gas phase with subsequent mass spectroscopy.
The combination of all techniques shall open new avenues for few-photon calorimetry and single-photon recoil spectroscopy. The calorimetry studies will explore the sensitivity of SNWA detection to molecular heat. Future experiments will study the shift of molecular matter-wave interference fringes caused by the recoil of a single photon.
Two industrial and three academic research teams represent a highly interdisciplinary consortium of experts from mass spectrometry, superconductor technology, integrated electronic engineering, synthetic chemistry, as well as molecular beam physics and quantum optics who work together in towards their joint goal to advance mass spectrometry and optical spectroscopy in a domain that has remained unexplored so far.

Status

CLOSED

Call topic

FETOPEN-01-2018-2019-2020

Update Date

27-04-2024
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Horizon 2020
H2020-EU.1. EXCELLENT SCIENCE
H2020-EU.1.2. EXCELLENT SCIENCE - Future and Emerging Technologies (FET)
H2020-EU.1.2.1. FET Open
H2020-FETOPEN-2018-2020
FETOPEN-01-2018-2019-2020 FET-Open Challenging Current Thinking