Corsi
Molecular Imprinting Technology and molecularly imprinted polymers (MIPs); Covalent, semi-covalent and non-covalent imprinting approaches; Production methods of MIPs such as monolith, precipitation, solid phase, covalent attachment, metal-coordination; MIPs as recognition elements in many fields from environmental toxicology to medical diagnostics; Major differences between small and large target imprinting; Application areas of MIPs; Use of molecular modelling approaches to improve the success of MIPs while decreasing the required cost and time; SYBLY and VMD/NAMD computational programs for virtual screening of a compound of interest to be imprinted. The course will be taught in English.
- Trainer/in: Frank Beuster
- Trainer/in: Frank Beuster
- Trainer/in: Alexander David Grunwald
- Trainer/in: Tobias Clemens Lüdtke
- Trainer/in: Reinhard Schomäcker
Behandelte Themengebiete:
Ø Kinetik und Mechanismen heterogen katalysierter Reaktionen
Ø Katalysatorkonzepte und Katalysator-Screening
Ø Charakterisierung heterogener Katalysatoren
Ø Wechselwirkung von Katalysatoren mit Trägern und Additiv
Ø moderne Oberflächenanalysemethoden
- Trainer/in: Frank Beuster
- Trainer/in: Minoo Tasbihi
- Trainer/in: Frank Beuster
- Trainer/in: Reinhard Schomäcker
- Trainer/in: Minoo Tasbihi
Molecular
Imprinting Technology and molecularly imprinted polymers (MIPs); Covalent,
semi-covalent and non-covalent imprinting approaches; Production methods of
MIPs such as monolith, precipitation, solid phase, covalent attachment,
metal-coordination; MIPs as recognition elements in many fields from
environmental toxicology to medical diagnostics; Major differences between
small and large target imprinting; Application areas of MIPs; Use of molecular
modelling approaches to improve the success of MIPs while decreasing the
required cost and time; SYBLY and VMD/NAMD computational programs for virtual
screening of a compound of interest to be imprinted. The course will
be taught in English.
- Trainer/in: Frank Beuster