Personal Information
Entreprise/Lieu de travail
Zurich Switzerland
Profession
Doctoral Candidate
Secteur d’activité
Medical / Health Care / Pharmaceuticals
Site Web
ailab.ifi.uzh.ch/hadorn/
À propos
In the Swiss National Foundation Project (Project Number: 200020-118127) Embryogenic Evolution: From Simulations to Robotic Applications (EES) I am supported by as well as in the European Union integrated project Programmable Artificial Cell Evolution (PACE, EU-IST-FP6-FET-002035), the Artificial Intelligence Laboratory (University of Zurich, Switzerland) was part of, I study (in close collaboration with the Mærsk Mc-Kinney Møller Institute, University of Southern Denmark, Denmark) novel Information Technology making strong use of life-like properties such as robustness, self-repair, self-assembly, modularity, self-organization genetic programmability, and evolvability. My aim is to transf
Mots-clés
vesicles
programmability
self-assembly
real-world testbed
hard sphere colloids
embryogenic evolution
dna
multivesicular aggregates
phase transition
glycerophospholipids
living technology
adhesion plaque
liposome
encapsulation
compartmentalization
personalized healthcare
vesicle
drug delivery
Tout plus
Personal Information
Entreprise/Lieu de travail
Zurich Switzerland
Profession
Doctoral Candidate
Secteur d’activité
Medical / Health Care / Pharmaceuticals
Site Web
ailab.ifi.uzh.ch/hadorn/
À propos
In the Swiss National Foundation Project (Project Number: 200020-118127) Embryogenic Evolution: From Simulations to Robotic Applications (EES) I am supported by as well as in the European Union integrated project Programmable Artificial Cell Evolution (PACE, EU-IST-FP6-FET-002035), the Artificial Intelligence Laboratory (University of Zurich, Switzerland) was part of, I study (in close collaboration with the Mærsk Mc-Kinney Møller Institute, University of Southern Denmark, Denmark) novel Information Technology making strong use of life-like properties such as robustness, self-repair, self-assembly, modularity, self-organization genetic programmability, and evolvability. My aim is to transf
Mots-clés
vesicles
programmability
self-assembly
real-world testbed
hard sphere colloids
embryogenic evolution
dna
multivesicular aggregates
phase transition
glycerophospholipids
living technology
adhesion plaque
liposome
encapsulation
compartmentalization
personalized healthcare
vesicle
drug delivery
Tout plus