Search Results - "Martins, Mariana P"

Analytical potential energy functions for CO+ in its ground and excited electronic states by Araújo, Judith P., Ballester, Maikel Y., Lugão, Isadora G., Silva, Rafael P., Martins, Mariana P.

“…Context Accurate functions to analytically represent the potential energy interactions of CO + diatomic system in X 2 Σ + , A 2 Π , and B 2 Σ + electronic…”
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A comparative study of analytical representations of potential energy curves for CO in its ground electronic state by Araújo, Judith P., Lugão, Isadora G., Silva, Rafael P., Martins, Mariana P., Okon, Ituen B., Onate, Clement A.

“…In this work, a comparative study of four functional forms used to represent potential energy curves (PECs) is presented. The starting point is the…”
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A methodology to obtain accurate potential energy Functions for diatomic systems: mathematical point of view by De Paula Araújo, Judith, Ballester, Maikel Y., Martins, Mariana P., Silva, Rafael P., Lugão, Isadora G., Okon, Ituen B., Onate, Clement A.

“…The mathematics used in physical chemistry has changed greatly in the past forty years and it will certainly continue to change more quickly. Theoretical…”
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Biohydroxylation of (−)-Ambrox®, (−)-Sclareol, and (+)-Sclareolide by Whole Cells of Brazilian Marine-Derived Fungi by Martins, Mariana P., Ouazzani, Jamal, Arcile, Guillaume, Jeller, Alex H., de Lima, João P. F., Seleghim, Mirna H. R., Oliveira, Ana Lígia L., Debonsi, Hosana M., Venâncio, Tiago, Yokoya, Nair S., Fujii, Mutue T., Porto, André L. M.

“…A screening was performed using nine marine-derived fungi as biocatalysts and the natural products (−)-ambrox® (1), (−)-sclareol (2), and (+)-sclareolide (3)…”
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Biohydroxylation of (-)-Ambrox, (-)-Sclareol, and (+)-Sclareolide by Whole Cells of Brazilian Marine-Derived Fung by Martins, Mariana P, Ouazzani, Jamal, Arcile, Guillaume, Jeller, Alex H, de Lima, João P; F, Seleghim, Mirna H; R, Oliveira, Ana Lígia; L, Debonsi, Hosana M, Venâncio, Tiago, Yokoya, Nair S, Fujii, Mutue T, Porto, André L; M

“…A screening was performed using nine marine-derived fungi as biocatalysts and the natural products (-)-ambrox (1), (-)-sclareol (2), and (+)-sclareolide (3) in…”
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Biohydroxylation of (-)-Ambrox registered , (-)-Sclareol, and (+)-Sclareolide by Whole Cells of Brazilian Marine-Derived Fungi by Martins, Mariana P, Ouazzani, Jamal, Arcile, Guillaume, Jeller, Alex H, Lima, Joao PF, Seleghim, Mirna HR, Oliveira, Ana Ligia L, Debonsi, Hosana M, Venancio, Tiago, Yokoya, Nair S, Fujii, Mutue T, Porto, Andre LM

“…A screening was performed using nine marine-derived fungi as biocatalysts and the natural products (-)-ambrox registered (1), (-)-sclareol (2), and…”
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Bioreduction of Acetophenone Derivatives by Red Marine Algae Bostrychia radicans and B. tenella, and Marine Bacteria Associated by Mouad, Ana M., Martins, Mariana P., Debonsi, Hosana M., de Oliveira, Ana L. L., de Felicio, Rafael, Yokoya, Nair S., Fujii, Mutue T., de Menezes, Claúdia B. A., Fantinatti-Garboggini, Fabiana, Porto, André L. M.

“…The biocatalytic reduction of acetophenone derivatives was exploited by using algal biomass from Bostrychia radicans and B. tenella producing exclusively…”
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