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{{Infobox provider-enzymatic processes|Company=NovelYeast bv|Processable volume=5|Feedstock=1G and 2G feedstocks|Other=Application of commercial enzyme cocktails, development of in situ enzyme production|Temperature=25-60|Safety restrictions=Standard microbiological practice|Reactor material=Glass|Reactor=Shake flasks, static tubes with magnetic stirring|Controlled paramaters=Standard parameters|Webpage=https://www.linkedin.com/in/johan-thevelein-aab60a10/|Agitator=Shake flasks, magnetic stirring|Capacity=Lab scale|TRL=3-5|Technology category=Enzymatic saccharification|Technology name=Enzymatic saccharification, In-situ enzyme production|Contact=johan.thevelein@novelyeast.com|Country=Belgium|Product=Fermentable sugars}} | {{Infobox provider-enzymatic processes|Company=NovelYeast bv|Processable volume=5|Feedstock=1G and 2G feedstocks|Other=Application of commercial enzyme cocktails, development of in situ enzyme production|Temperature=25-60|Safety restrictions=Standard microbiological practice|Reactor material=Glass|Reactor=Shake flasks, static tubes with magnetic stirring|Controlled paramaters=Standard parameters|Webpage=https://www.linkedin.com/in/johan-thevelein-aab60a10/|Agitator=Shake flasks, magnetic stirring|Capacity=Lab scale|TRL=3-5|Technology category=Enzymatic saccharification|Technology name=Enzymatic saccharification, In-situ enzyme production|Contact=johan.thevelein@novelyeast.com|Country=Belgium|Product=Fermentable sugars}} | ||
NovelYeast bv was founded in 2019 by Prof. Johan Thevelein (KU Leuven and VIB) to continue his R&D activities after his retirement in 2020 as emeritus. The company focusses on the development and industrial implementation of yeast cell factories for the production of biofuels, bio-based chemicals as well as specialty sugars and ingredients with first- and second-generation feedstocks. It also develops cell factories for the production of specific proteins for food applications and enzymes for saccharification of lignocellulosic biomass. In addition, it uses yeast as a tool for biomedical and agroindustrial applications, including yeast probiotics and anti-cancer drugs selected by screening in yeast. NovelYeast has several R&D service collaborations with companies world-wide. | NovelYeast bv was founded in 2019 by Prof. Johan Thevelein (KU Leuven and VIB) to continue his R&D activities after his retirement in 2020 as emeritus. The company focusses on the development and industrial implementation of yeast cell factories for the production of biofuels, bio-based chemicals as well as specialty sugars and ingredients with first- and second-generation feedstocks. It also develops cell factories for the production of specific proteins for food applications and enzymes for saccharification of lignocellulosic biomass. In addition, it uses yeast as a tool for biomedical and agroindustrial applications, including yeast probiotics and anti-cancer drugs selected by screening in yeast. NovelYeast has several R&D service collaborations with companies world-wide. | ||
=== University of Naples (Naples, Italy) === | === University of Naples (Naples, Italy) === | ||
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Department of Chemical Sciences | Department of Chemical Sciences | ||
Via Cintia, 4 IT-80126 Napoli|Webpage=https://www.docenti.unina.it/vincenza.faraco|Technology name=Enzymatic Hydrolysis|TRL=2-4|Feedstock=1G and 2G feedstocks|Product=Fermentable sugars|Image=Logo_istituzionale_federico_II.jpg|Reactor material=not relevant|Temperature=not relevant|Safety restrictions=not relevant|Capacity=not relevant|Reactor=not relevant|Processable volume=not relevant|Controlled paramaters=not relevant|Agitator=not relevant|Other=not relevant}} | Via Cintia, 4 IT-80126 Napoli|Webpage=https://www.docenti.unina.it/vincenza.faraco|Technology name=Enzymatic Hydrolysis|TRL=2-4|Feedstock=1G and 2G feedstocks|Product=Fermentable sugars|Image=Logo_istituzionale_federico_II.jpg|Reactor material=not relevant|Temperature=not relevant|Safety restrictions=not relevant|Capacity=not relevant|Reactor=not relevant|Processable volume=not relevant|Controlled paramaters=not relevant|Agitator=not relevant|Other=not relevant}} | ||
The Department of Chemical Sciences of University of Napoli Federico II hosts about 100 researchers and 20 units of technicians and administrative personnel. The main activities of the Department are the Research, the Didactics and the so-called third mission activitities. The Research activities cover several areas of Chemistry, including the design and synthesis of new molecules, from low mass to macromolecules, the purification and the analytic characterization of natural and synthetic molecules, the structural characterization of new molecules through X-ray diffraction, nuclear magnetic resonance, optical and spin electron spectroscopy techniques, mass spectroscopy. The design, the synthesis and the characterization of new molecules are aimed, for example, to the production of innovative molecules with catalytic properties in important chemical and polymerization processes, or to the production of new functional materials, for several applications in a wide range of fields. Research activities also regard the study of biomolecules and biopolymers for applications in biotechnology, from the development of biosensors to biomedical applications, the study of organic functional molecules and organic polymers for special applications, such as the microelectronics, or the development of new materials with innovative mechanical properties, and the study of nanostructured materials for applications in several fields going from the biology to the medicine, from microelectronics to nanophotonics. | The Department of Chemical Sciences of University of Napoli Federico II hosts about 100 researchers and 20 units of technicians and administrative personnel. The main activities of the Department are the Research, the Didactics and the so-called third mission activitities. The Research activities cover several areas of Chemistry, including the design and synthesis of new molecules, from low mass to macromolecules, the purification and the analytic characterization of natural and synthetic molecules, the structural characterization of new molecules through X-ray diffraction, nuclear magnetic resonance, optical and spin electron spectroscopy techniques, mass spectroscopy. The design, the synthesis and the characterization of new molecules are aimed, for example, to the production of innovative molecules with catalytic properties in important chemical and polymerization processes, or to the production of new functional materials, for several applications in a wide range of fields. Research activities also regard the study of biomolecules and biopolymers for applications in biotechnology, from the development of biosensors to biomedical applications, the study of organic functional molecules and organic polymers for special applications, such as the microelectronics, or the development of new materials with innovative mechanical properties, and the study of nanostructured materials for applications in several fields going from the biology to the medicine, from microelectronics to nanophotonics. |