Add to ORKGResearch has shown that the intraparticle biocatalytic distribution has extensive effects on the properties of various (industrial) biocatalytic particles and their performance in (bio-) chemical reactions. In recent years, advances in molecular chemistry have led to the development of many different specific (immuno-) labeling and light-microscopic detection techniques. Furthermore, high-quality image-digitizing devices and enhanced computing power have made image analysis readily accessible. These technologies may lead to the assessment and improvement of the internal biocatalyst profile as an integral part of biocatalytic particle optimizatio
The macroscopic kinetic behavior of an industrially employed immobilized penicillin-G acylase, calle...
Recent advances in optical microscopy enable the visualization and quantification of biological proc...
Proper understanding of viable cell physiology during biocatalytic processes, progress in developmen...
Research has shown that the intraparticle biocatalytic distribution has extensive effects on the pro...
The quantitative intraparticle enzyme distribution of Assemblase, an industrially employed polydispe...
The quantitative intraparticle enzyme distribution of Assemblase, an industrially employed polydispe...
Immobilized enzymes have been widely exploited because they work as heterogeneous biocatalysts, allo...
In a study of Assemblase®, an industrial immobilized penicillin-G acylase, various electron microsco...
In a study of Assemblase®, an industrial immobilized penicillin-G acylase, various electron microsco...
Field-emission scanning electron microscopy (FESEM) was used in a technical feasibility study to obt...
This thesis is comprised of three projects that serve to address current topics in the field of bioo...
This thesis is comprised of three projects that serve to address current topics in the field of bioo...
Multiple phenomena are involved in conversions by immobilized biocatalysts. A paradox is identified ...
Multiple phenomena are involved in conversions by immobilized biocatalysts. A paradox is identified ...
The macroscopic kinetic behavior of an industrially employed immobilized penicillin-G acylase, calle...
The macroscopic kinetic behavior of an industrially employed immobilized penicillin-G acylase, calle...
Recent advances in optical microscopy enable the visualization and quantification of biological proc...
Proper understanding of viable cell physiology during biocatalytic processes, progress in developmen...
Research has shown that the intraparticle biocatalytic distribution has extensive effects on the pro...
The quantitative intraparticle enzyme distribution of Assemblase, an industrially employed polydispe...
The quantitative intraparticle enzyme distribution of Assemblase, an industrially employed polydispe...
Immobilized enzymes have been widely exploited because they work as heterogeneous biocatalysts, allo...
In a study of Assemblase®, an industrial immobilized penicillin-G acylase, various electron microsco...
In a study of Assemblase®, an industrial immobilized penicillin-G acylase, various electron microsco...
Field-emission scanning electron microscopy (FESEM) was used in a technical feasibility study to obt...
This thesis is comprised of three projects that serve to address current topics in the field of bioo...
This thesis is comprised of three projects that serve to address current topics in the field of bioo...
Multiple phenomena are involved in conversions by immobilized biocatalysts. A paradox is identified ...
Multiple phenomena are involved in conversions by immobilized biocatalysts. A paradox is identified ...
The macroscopic kinetic behavior of an industrially employed immobilized penicillin-G acylase, calle...
The macroscopic kinetic behavior of an industrially employed immobilized penicillin-G acylase, calle...
Recent advances in optical microscopy enable the visualization and quantification of biological proc...
Proper understanding of viable cell physiology during biocatalytic processes, progress in developmen...