Add to ORKGIn this work the trapping and conversion of visible light energy into chemical energy is examined using a supramolecular assembly. This consists of a light absorbing antenna and a porphyrin redox centre both covalently attached to a DNA strand, which in turn is bound to a lipid membrane. The excitation energy is finally trapped as a benzoquinone radical anion that could potentially be used in subsequent chemical reactions
In this thesis, I demonstrate how fluorescence can be used in the context of bio-inspired nanotechno...
Membrane fusion is essential for nerve-cell communication, for protein transport between cell organe...
An approach combining DNA nanoscaffolds with supramolecular polymers for the efficient and direction...
In this work we examine the trapping and conversion of visible light energy into chemical energy usi...
In this work we examine the trapping and conversion of visible light energy into chemical energy usi...
Mimicking natural photosynthesis by covalently arranging antenna and charge separation units is a fo...
We have synthesized and studied a supramolecular system comprising a 39-mer DNA with porphyrin-modif...
Mimicking green plants' and bacteria's extraordinary ability to absorb a vast number of photons and ...
We report a simple donor-acceptor dyad system capable of acting as an artificial mimic of the photos...
The differential physical properties found at different depths of a phospholipid membrane permit des...
Supramolecular artificial light harvesting complexes have been designed through binding of a donor d...
OAK B188 The goal of this project is to mimic the energy transduction processes by which photosynthe...
This research project is concerned with the design, synthesis and study by photochemical and spectro...
DNA nanotechnology has focused on the creation of complex structures using DNA as building blocks. D...
The interfacing of biomolecules to nanostructures, electrode surfaces and/or optical components cons...
In this thesis, I demonstrate how fluorescence can be used in the context of bio-inspired nanotechno...
Membrane fusion is essential for nerve-cell communication, for protein transport between cell organe...
An approach combining DNA nanoscaffolds with supramolecular polymers for the efficient and direction...
In this work we examine the trapping and conversion of visible light energy into chemical energy usi...
In this work we examine the trapping and conversion of visible light energy into chemical energy usi...
Mimicking natural photosynthesis by covalently arranging antenna and charge separation units is a fo...
We have synthesized and studied a supramolecular system comprising a 39-mer DNA with porphyrin-modif...
Mimicking green plants' and bacteria's extraordinary ability to absorb a vast number of photons and ...
We report a simple donor-acceptor dyad system capable of acting as an artificial mimic of the photos...
The differential physical properties found at different depths of a phospholipid membrane permit des...
Supramolecular artificial light harvesting complexes have been designed through binding of a donor d...
OAK B188 The goal of this project is to mimic the energy transduction processes by which photosynthe...
This research project is concerned with the design, synthesis and study by photochemical and spectro...
DNA nanotechnology has focused on the creation of complex structures using DNA as building blocks. D...
The interfacing of biomolecules to nanostructures, electrode surfaces and/or optical components cons...
In this thesis, I demonstrate how fluorescence can be used in the context of bio-inspired nanotechno...
Membrane fusion is essential for nerve-cell communication, for protein transport between cell organe...
An approach combining DNA nanoscaffolds with supramolecular polymers for the efficient and direction...