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Marcin Konowalczyk

ORCID: 0000-0003-0921-4278
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About
Contact & Profiles
A5031019315
Research Areas
  • Atomic and Subatomic Physics Research
  • Spectroscopy and Quantum Chemical Studies
  • Advanced MRI Techniques and Applications
  • Electromagnetic Fields and Biological Effects
  • NMR spectroscopy and applications
  • Characterization and Applications of Magnetic Nanoparticles
  • Impact of Light on Environment and Health
  • Electrical and Bioimpedance Tomography
  • Quantum Dots Synthesis And Properties

University of Oxford
 2020-2021

Oxfam
 2020

Science Oxford
 2020

 Magnetic sensitivity of cryptochrome 4 from a migratory songbird
OPENALEX - Publications 
Jingjing Xu Lauren E. Jarocha Tilo Zollitsch Marcin Konowalczyk Kevin B. Henbest and 31 more Sabine Richert Matthew J. Golesworthy Jessica Schmidt Victoire Déjean Daniel J. C. Sowood Marco Bassetto Jiate Luo Jessica R. Walton Jessica L. Fleming Yujing Wei Tommy L. Pitcher Gabriel Moise Maike Herrmann Hang Yin Haijia Wu Rabea Bartölke Stefanie J. Käsehagen Simon Horst Glen Dautaj Patrick D. F. Murton Angela S. Gehrckens Yogarany Chelliah Joseph S. Takahashi Karl‐Wilhelm Koch Stefan Weber Ilia A. Solov’yov Can Xie Stuart R. Mackenzie Christiane R. Timmel Henrik Mouritsen P. J. Hore

10.1038/s41586-021-03618-9 article EN Nature 2021-06-23
 Detection of magnetic field effects by confocal microscopy
OPENALEX - Publications 
Victoire Déjean Marcin Konowalczyk Jamie Gravell Matthew J. Golesworthy Catlin Gunn and 7 more Nils Pompe Olivia Foster Vander Elst Kejie Tan Mark Oxborrow Dirk G. A. L. Aarts Stuart R. Mackenzie Christiane R. Timmel

Confocal microscopy is showcased as a powerful technique for the measurement of spatiotemporally-resolved magnetic field effects in both solutions and single crystals.

10.1039/d0sc01986k article EN cc-by-nc Chemical Science 2020-01-01
 Development of lock-in based overtone modulated MARY spectroscopy for detection of weak magnetic field effects
OPENALEX - Publications 
Marcin Konowalczyk Olivia Foster Vander Elst Jonathan G. Storey

A covolutional model for the effect of broad modulated stimulus (magnetic field) is developed by considering curvature underlying transfer function (magnetosensitivity profile).

10.1039/d0cp04814c article EN Physical Chemistry Chemical Physics 2020-12-23
 Development of Lock-in Based Overtone Modulated MARY Spectroscopy for Detection of Weak Magnetic Field Effects
OPENALEX - Publications 
Marcin Konowalczyk Olivia Foster Vander Elst Jonathan Storey

Modulated magnetically altered reaction yield (ModMARY) spectroscopy is a derivative variant of fluorescence detected magnetic field effect measurement, where the applied has both constant and modulated component. As in many techniques, signal to noise ratio scales with magnitude modulation. High modulation amplitudes, however, distort can obscure small features measured spectrum. In order detect weak effects (including low effect) balance two be found. this work we look depth at origin...

10.26434/chemrxiv.13338320 preprint EN cc-by-nc-nd 2020-12-08
 Development of Lock-in Based Overtone Modulated MARY Spectroscopy for Detection of Weak Magnetic Field Effects
OPENALEX - Publications 
Marcin Konowalczyk Olivia Foster Vander Elst Jonathan Storey

Modulated magnetically altered reaction yield (ModMARY) spectroscopy is a derivative variant of fluorescence detected magnetic field effect measurement, where the applied has both constant and modulated component. As in many techniques, signal to noise ratio scales with magnitude modulation. High modulation amplitudes, however, distort can obscure small features measured spectrum. In order detect weak effects (including low effect) balance two be found. this work we look depth at origin...

10.26434/chemrxiv.13338320.v1 preprint EN cc-by-nc-nd 2020-12-08
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