37 results on '"Briand, Laura E."'
Search Results
2. Bioactive volatiles of brewer's yeasts: Antifungal action of compounds produced during wort fermentation on Aspergillus sp
3. Phosphotungstic Wells-Dawson Heteropolyacid as Potential Catalyst in the Transesterification of Waste Cooking Oil
4. Rational Design of a Biocatalyst Based on Immobilized CALB onto Nanostructured SiO2
5. Transesterification of waste cooking oil with a commercial liquid biocatalyst: Key information revised and new insights
6. Identification and assessment of non-conventional yeasts in mixed fermentations for brewing bioflavored beer
7. Analytical characterization and purification of a commercial extract of enzymes: A case study
8. Investigation of the stability of Novozym® 435 in the production of biodiesel
9. Novozym 435: The 'perfect' lipase immobilized biocatalyst?
10. Insights in the biocatalyzed hydrolysis, esterification and transesterification of waste cooking oil with a vegetable lipase
11. Preface: Catalysis in Latin America
12. Estudios catalíticos y moleculares de la esterificación de ibuprofeno y ketoprofeno con glicerol
13. Catalytic and molecular insights of the esterification of ibuprofen and ketoprofen with glycerol
14. Environmentally friendly synthesis of Wells–Dawson heteropolyacids: Active acid sites investigation through TPSR of isopropanol
15. Is there a relationship between the M [dbnd]O bond length (strength) of bulk mixed metal oxides and their catalytic activity?
16. Interactions between surface vanadate and surface sulfate species on metal oxide catalysts
17. In situ quantification of the active acid sites of H 6P 2W 18O 62· nH 2O heteropoly-acid through chemisorption and temperature programmed surface reaction of isopropanol
18. Novozym 435: the “perfect” lipase immobilized biocatalyst?
19. The state of the art on Wells–Dawson heteropoly-compounds: A review of their properties and applications
20. Quantitative determination of the number of surface active sites and the turnover frequency for methanol oxidation over bulk metal vanadates
21. Quantitative Determination of the Number of Surface Active Sites and the Turnover Frequencies for Methanol Oxidation over Metal Oxide Catalysts: Application to Bulk Metal Molybdates and Pure Metal Oxide Catalysts
22. In situ DRIFTS study of the adsorption–oxidation of CH 3OH on V 2O 5
23. Thermal stability and catalytic activity of Wells-Dawson tungsten heteropoly salts
24. Surface-analytical studies of supported vanadium oxide monolayer catalysts
25. Molecular structure and thermal stability of the oxide-supported phosphotungstic Wells-Dawson heteropolyacid
26. Dispositivo Interactivo Luminoso como Recurso Didáctico para la Mejor Comprensión del Concepto Ácido-Base en Química General
27. Adsorción en la Vida Cotidiana: Un Experimento de Fisicoquímica con Aplicación Ambiental
28. Comparison of UV and Visible Raman Spectroscopy of Bulk Metal Molybdate and Metal Vanadate Catalysts
29. In situ quantification of the active acid sites of H6P2W18O62·nH2O heteropoly-acid through chemisorption and temperature programmed surface reaction of isopropanol
30. Molecular structure and reactivity of the Group V metal oxides
31. In situ DRIFTS study of the adsorption–oxidation of CH3OH on V2O5
32. Quantitative determination of the number of active surface sites and the turnover frequencies for methanol oxidation over metal oxide catalysts
33. Molecular structure and reactivity of the group V metal oxides
34. In situ quantification of the active acid sites of H6P2W18O62·nH2O heteropoly-acid through chemisorption and temperature programmed surface reaction of isopropanol
35. Investigation of the stability of Novozym® 435 in the production of biodiesel.
36. Novozym 435: The 'perfect' lipase immobilized biocatalyst?
37. The synthesis of soluble and volatile bioactive compounds by selected brewer's yeasts: Antagonistic effect against enteropathogenic bacteria and food spoiler - toxigenic Aspergillus sp.
Catalog
Books, media, physical & digital resources
Discovery Service for Jio Institute Digital Library
For full access to our library's resources, please sign in.