80.1

Teresa Nunes

University of Lisbon

Teresa Nunes' research contributes significantly to various fields of study, including materials science, catalysis, pharmaceuticals, and chemistry. Their work on metal-containing polyamide 6 microparticles, zinc biomimetic catalysts, and hybrid poly(2-pyrrolidone) microparticles has improved the understanding of structure and molecular dynamics in these systems. Nunes' studies also explored the influence of substitution degree on albendazole inclusion complexes and the radiofrequency shielding effect of binary polyamide hybrid composites containing carbon allotropes and metal particles. Additionally, their research investigated novel high-resistance clinkers, drug delivery systems, and opicapone's effects on levodopa pharmacokinetics and cardiac repolarization. These contributions have important implications for sustainable materials development, pharmaceutical applications, and biomedical research, highlighting the relevance and importance of Nunes' work in advancing scientific understanding and innovation.

Hybrid MaterialsHybrid Organic-Inorganic MaterialsTreatmentAntiepileptic DrugsPhotocatalystsMesoporous MaterialsGlass ScienceHeterogeneous CatalysisNano-compositesPolymer CrystallizationNMR SpectroscopyCrystallization KineticsDental MaterialsRing-Opening PolymerizationDrug Metabolism
Firms applying this knowledge

University Of Kansas, Bial-Portela & Cª, S.A., E. I. Du Pont De Nemours And Company

Commercial signal 79.8
Scientific signal 82.7
Social signal 79.6
Papers 67
18 Patent-to-paper cites
1,779 Paper cites

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