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Current research interests are towards better understanding and bioanalytical implications of adducts formation in atmospheric pressure ionization, applications and fundamentals of ion mobility and the development of multiple fragment techniques including collision-induced dissociation, electron induced dissociation, and photodissociation in LC-MS/MS and SFC-MS/MS.
Our research integrates the role of new technologies, workflow and software for the analysis of molecules of biological interest. The overall goal is to develop innovative analytical tools and solutions that will benefit the detection and understanding of disease, and the discovery and development of appropriate therapeutics. All aspects of analytical sciences from sample collection to assay validation are considered in our research where mass spectrometric detection plays a central role. In addition to the application of separation sciences (GC, LC, SFC) combined to mass spectrometry, disruptive approaches based on MALDI or ion mobility for high throughput, multiplexed and low cost analyses of biomarkers and pharmaceuticals are investigated.
Our scientific interests include: separation sciences, sample preparation, automation, bioanalysis, metabolism, metabolomics, analytical proteomics, toxicology, high resolution mass spectrometry, ion mobility mass spectrometry, data independent acquisition techniques (SWATH), MS/MS spectra interpretation, ionization, data analysis and mass spectrometry imaging.
His research interests focus on the application and the development of novel hyphenated mass spectrometry approaches in the field of life sciences from elements to proteins, integrating the role of new technologies, workflow, and software for the analysis of molecules of biological interest. The main objective of his studies is to develop innovative analytical tools and solutions, where mass spectrometry plays a central role, which will benefit the detection and understanding of disease, and the discovery and development of appropriate therapeutics. In addition to the application of separation sciences (GC, LC, SFC) combined to mass spectrometry, disruptive approaches based on MALDI or ion mobility for high throughput, multiplexed and innovative analyses of biomarkers, and pharmaceuticals are also among the main fields of investigation of Professor Hopfgartner. His current research efforts include separation sciences, sample preparation, automation, bioanalysis, metabolism, metabolomics, analytical proteomics, toxicology, high-resolution mass spectrometry, ion mobility mass spectrometry, data-independent acquisition techniques (SWATH), MS/MS spectra interpretation, ionization, data analysis, and mass spectrometry imaging.
Our research integrates the role of new technologies, workflow and software for the analysis of molecules of biological interest. The overall goal is to develop innovative analytical tools and solutions that will benefit the detection and understanding of disease, and the discovery and development of appropriate therapeutics. All aspects of analytical sciences from sample collection to assay validation are considered in our research where mass spectrometric detection plays a central role. In addition to the application of separation sciences (GC, LC, SFC) combined to mass spectrometry, disruptive approaches based on MALDI or ion mobility for high throughput, multiplexed and low cost analyses of biomarkers and pharmaceuticals are investigated.
Our scientific interests include: separation sciences, sample preparation, automation, bioanalysis, metabolism, metabolomics, analytical proteomics, toxicology, high resolution mass spectrometry, ion mobility mass spectrometry, data independent acquisition techniques (SWATH), MS/MS spectra interpretation, ionization, data analysis and mass spectrometry imaging.
His research interests focus on the application and the development of novel hyphenated mass spectrometry approaches in the field of life sciences from elements to proteins, integrating the role of new technologies, workflow, and software for the analysis of molecules of biological interest. The main objective of his studies is to develop innovative analytical tools and solutions, where mass spectrometry plays a central role, which will benefit the detection and understanding of disease, and the discovery and development of appropriate therapeutics. In addition to the application of separation sciences (GC, LC, SFC) combined to mass spectrometry, disruptive approaches based on MALDI or ion mobility for high throughput, multiplexed and innovative analyses of biomarkers, and pharmaceuticals are also among the main fields of investigation of Professor Hopfgartner. His current research efforts include separation sciences, sample preparation, automation, bioanalysis, metabolism, metabolomics, analytical proteomics, toxicology, high-resolution mass spectrometry, ion mobility mass spectrometry, data-independent acquisition techniques (SWATH), MS/MS spectra interpretation, ionization, data analysis, and mass spectrometry imaging.
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ANALYSTno. 4 (2024): 1061-1067
ANALYTICA CHIMICA ACTA (2024): 342117-342117
Alice Legru, Fernando A. Batista,Anna K. Puszko,Anthony Bouillon, Manon Maurel,Mariano Martinez, Abdelaziz Ejjoummany, Laura Ortega Varga, Pauline Adler,Ariel Méchaly, Margot Hadjadj,Piotr Sosnowski,
European Journal of Medicinal Chemistry (2024): 116308-116308
Frank Klont, Marieke A.J. Hof, Fleur B. Nijdam,Daan J. Touw, Stephan J.L. Bakker,Gérard Hopfgartner, Jos G.W. Kosterink,Eelko Hak
Analytical and bioanalytical chemistryno. 10 (2023): 1905-1915
Bioorganic & medicinal chemistry (2023): 117482-117482
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Analytical and Bioanalytical Chemistryno. 29-30 (2023): 7117-7126
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