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My research is at the interface of chemistry, physics, mathematics, and computer science. It revolves around designing novel methodologies for the detection and analysis of magnetic resonance spectroscopic data, with applications in chemical, biological, material, and medical research. My current research interests include designing highly controlled and robust pulses (radiofrequency and microwave) for NMR and ESR spectroscopies, optimal control of quantum spin systems, signal processing, spectral estimation and modelling, and designing novel magnetic resonance detection schemes.
In particular, one of my main current research interests is the design and development of novel NMR spectroscopic tools that allow us to detect signals and images from a very small volume of sample (nanolitres), a single cell, and eventually a single molecule, using crystal defects in diamond known as nitrogen vacancies. These defects in diamond hold great promise to shape our future and transform our technologies, especially in the spectroscopy and imaging of biological systems, since they can be used as biologically inert, ultrasensitive, and extremely accurate magnetometers for quantum bio-sensing.
I believe the future of measurement sciences in general, and spectroscopic techniques in particular, lies in the re-examination of the fundamentals and a combination of mathematical theories, computation power, and the discovery and exploitation of materials that can serve as sensors in novel detection schemes.
In particular, one of my main current research interests is the design and development of novel NMR spectroscopic tools that allow us to detect signals and images from a very small volume of sample (nanolitres), a single cell, and eventually a single molecule, using crystal defects in diamond known as nitrogen vacancies. These defects in diamond hold great promise to shape our future and transform our technologies, especially in the spectroscopy and imaging of biological systems, since they can be used as biologically inert, ultrasensitive, and extremely accurate magnetometers for quantum bio-sensing.
I believe the future of measurement sciences in general, and spectroscopic techniques in particular, lies in the re-examination of the fundamentals and a combination of mathematical theories, computation power, and the discovery and exploitation of materials that can serve as sensors in novel detection schemes.
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Science Advancesno. 49 (2022)
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