COVALENTLY PATTERNED GRAPHENE SURFACES BY A FORCE ACCELERATED CYCLOADDITION REACTION
申请人:NEW YORK UNIVERSITY
公开号:US20150218094A1
公开(公告)日:2015-08-06
The present invention relates generally to molecular printing techniques for use in sensors, arrays, and integrated optics and electronics. The invention features described give rise to the ability to immobilize biological probes by force-induced patterning, while still maintaining the conductivity of the graphene substrate. Most particularly, the present invention relates to covalent patterning of graphene surface using a force-accelerated reaction.
MALTOTRIOSE METABOLIZING MUTANTS OF SACCHAROMYCES EUBAYANUS
申请人:Heineken Supply Chain B.V.
公开号:EP3626838A1
公开(公告)日:2020-03-25
The invention relates to a mutant of Saccharomyces eubayanus that is able to ferment maltotriose, and to the use of this mutant for producing hybrid yeast and the resulting hybrid yeast. The invention relates to methods of producing a fermented beer product by employing said mutant and/or said hybrid yeast.
This disclosure relates to a sensor that detects bacteria cells comprising (a) a primary negatively charged, nanoparticulate sensing material; (b) a secondary positively charged, fluorescent sensing material; (c) a housing; and (d) at least one illuminator. This disclosure further relates to a method for detecting bacteria cells.
The present invention is directed to particle comprising a drug and a ligand, and to method of making them and use thereof. Particularly, the present invention results in the covalent entrapment of drug(s) in high amounts in polymer carriers, such as (nano)particle, microspheres and other types of polymer devices for controlled release. The polymer carriers or devices can be decorated with ligands, allowing for targeting specific tissues and/or (non-) invasive monitoring.