M
M. U. Palma
Researcher at European Union
Publications - 3
Citations - 89
M. U. Palma is an academic researcher from European Union. The author has contributed to research in topics: Quenching (fluorescence) & Coagulation (water treatment). The author has an hindex of 2, co-authored 3 publications receiving 86 citations. Previous affiliations of M. U. Palma include University of Palermo.
Papers
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Journal ArticleDOI
Interacting processes in protein coagulation.
P.L. San Biagio,Vincenzo Martorana,A. Emanuele,A. Emanuele,S.M. Vaiana,S.M. Vaiana,Mauro Manno,Mauro Manno,Donatella Bulone,M. B. Palma-Vittorelli,M. B. Palma-Vittorelli,M. U. Palma,M. U. Palma +12 more
TL;DR: Experiments on bovine serum albumin are reported, showing that the process of conformational change of this protein towards an intermediate form required for coagulation occurs simultaneously and interacts with two more processes: mesoscopic demixing of the solution and protein cross‐linking.
Journal ArticleDOI
Multiple interactions between molecular and supramolecular ordering
Mauro Manno,Mauro Manno,A. Emanuele,A. Emanuele,Vincenzo Martorana,Donatella Bulone,P.L. San Biagio,P.L. San Biagio,M. B. Palma-Vittorelli,M. B. Palma-Vittorelli,M. U. Palma,M. U. Palma +11 more
TL;DR: In this paper, the interplay among processes of molecular conformational changes, spinodal demixing of the solution, and molecular crosslinking involved in the physical gelation of a biopolysaccharide-water system was studied under largely different absolute and relative values of their individual rates by appropriate choices of the quenching temperature at constant polymer concentration.
Proceedings ArticleDOI
Micro- and mesoscopic process interactions in protein coagulation
P.L. San Biagio,Vincenzo Martorana,A. Emanuele,A. Emanuele,Sara Vaiana,Sara Vaiana,Mauro Manno,Mauro Manno,Donatella Bulone,M. B. Palma-Vittorelli,M. B. Palma-Vittorelli,M. U. Palma,M. U. Palma +12 more
TL;DR: In this paper, the authors report experiments on bovine serum albumin (BSA) showing that the overall mechanism is the result of at least three distinct and strongly intertwined processes, on both length scales: molecular conformational changes, solution demixing and intermolecular crosslinking.