International Iberian Nanotechnology Laboratory - INL | Portugal
Author Profile:
Michael González-Durruthy, a Cuban national, has emerged as a leading figure in the realm of Computational Toxicology, with a specific focus on Nanosafety. His academic journey reflects a commitment to interdisciplinary research and a pursuit of excellence.
González-Durruthy obtained his Ph.D. in Materials Science from the University of Santiago de Compostela, Spain, between September 2018 and November 2021. His thesis, titled "Theoretical-experimental study on protein-ligand interactions based on thermodynamics methods, molecular docking, and perturbation models," showcased his early interest in biophysically inspired models to evaluate protein-ligand interactions, particularly in the context of medical applications. The Outstanding Cum Laude distinction and the International (European Ph.D.) mention underscore the high caliber of his research.
Professional Endeavors:
As of 2022, Michael González-Durruthy holds the position of Research Fellow in Computational Toxicology within the NanoSafety Group at the International Iberian Nanotechnology Laboratory (INL) in Braga, Portugal. In this role, he contributes significantly to the field of Nanosafety by developing Nano-QSAR/Nano-QSTR machine learning models for evaluating nanotoxicology.
Academic Achievements and Recognition:
González-Durruthy's academic achievements are notable, with both of his Ph.D. theses receiving the highest honors. The Portuguese Equivalence Exam of Ph.D. Degree Level Recognition further solidified the international recognition of his qualifications.
Contributions and Research Focus Biophysics:
González-Durruthy's contributions to the field are centered around advancing our understanding of nanotoxicology through computational models. His emphasis on machine learning, predictive algorithms, and the intersection of computational approaches with experimental data positions him as a thought leader in the evolving landscape of nanosafety research.
Accolades and Recognition:
The distinction of Outstanding Cum Laude in both Ph.D. theses is a testament to the quality and impact of González-Durruthy's research. His work has garnered international recognition, and his inclusion in esteemed institutions reflects the trust placed in his expertise.
Impact and Influence:
González-Durruthy's work has the potential to reshape how we assess and understand the risks associated with nanomaterial exposure. His research at the nexus of computational toxicology and nanosafety is likely to inform regulatory frameworks and contribute to the development of safer nanotechnologies.
Legacy and Future Contributions:
As a pioneering computational toxicologist, Michael González-Durruthy's legacy lies in bridging the gap between nanomaterials and biological systems. His multidisciplinary approach, coupled with a global perspective, positions him for continued leadership in the field. His future contributions are poised to further advance computational methodologies in nanotoxicology, leaving an indelible mark on the evolving landscape of nanosafety research.
Notable Publication:
Advanced Materials Based on Nanosized Hydroxyapatite May 2021