About
Eugen Stulz is Associate Professor in Bioorganic and Materials Chemistry. His research interests are interdisciplinary, spanning chemistry, biology, medicine and chemical engineering. The main aims are to tackle diseases such as cancer, and addressing environmental issues such as energy conversion.
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Research
Research interests
- DNA chemistry
- Chemical Biology
- Medicinal chemistry
- Cancer
- Gene expression
Current research
The general research interests in the Stulz group are concerned with supramolecular chemistry, bio-nanotechnology, medicinal chemistry, nanoparticles and microfluidics.
We are mainly exploring the use of modified DNA in a number of applications, ranging from electronics over gene expression to novel platform technologies in health care. The research is highly interdisciplinary, and reaches into materials science, nanotechnology, analytical science, and into biological / medicinal sciences. We have reviewed the progress in the use of modified DNA in , in and in . We have also contributed to books and book chapters: (Springer 2021); (Wiley 2014).
In addition, we are investigating in the synthesis of silver nanoprisms for energy applications. We have shown that Ag-NPs can successfully be embedded in a polymer matrix and coated onto glass windows, thus forming an IR-light blocking layer to create more energy efficient windows. One of our main themes is now to develop 3D-printed flow-through reactors for continuous flow synthesis of Ag-NPs, which can also be applied to other nanoparticles (e.g. liposomes). The costs of a device is now as low as 拢5.
DNA in the chemistry - biology - medicine interface
We use modified nucleotides and oligonucleotides (ONs) in biology and medicine to target a number of issues. In particular gene expression and diagnostics profit highly from the use of synthetic DNA. We are pursuing several systems to address regulation of gene expression, targeted cell killing and sensing of ODN markers; the majority of the applications are targeted at cancer therapy.
To advance the field of ONs in medicinal applications, we are leading the , which comprises academic groups, SMEs, pharma and hospitals across Europe and targets cancer, Huntington's Disease and cardiovascular diseases.
DNA nanopores
We have developed DNA based membrane nanopores, which form stable inclusion complexes in lipid bilayers. Together with the groups of Stefan Howorka (UCL) and Ulrich Keyser (Cambridge) we have studied several types of pore forming DNA systems (, ). We found that two porphyrins are sufficient to form very stable insertions for a six-helical DNA bundle. The simple design allows for the creation of a pore of approximately 5 nm width and 14 nm height, with an inner pore diameter of 2 nm. Current recordings of the ionic flow across the lipid bilayer confirms the formation of the nanopore.
In addition, we could show that a 6-porphyrin containing DNA duplex inserts into the lipid bilayer and induces a flow of ions along the phosphate backbone. This leads to the formation of the smallest possible DNA nanopore, i.e. a single DNA duplex (). It also reveals that it will not be possible to completely suppress ion flows in larger DNA nanopores, e.g. by blocking the channel.
We are now investigating the nanopores in targeted cell killing.
DNA sensors
Porphyrins have shown to be perfectly well suited to create electrochemical sensors for DNA. Together with the group of Jerzy Radecki and Hanna Radecka in Olsztyn, Poland, we are using cobalt metallated porphyrins that show to be ultrasensitive towards hybridisation with the complementary sequence (). The sensor is very selective, able to discriminate single nucleotide polymorphism, and extremely sensitive: with the use of gold nanoparticles on the surface of the electrode, our sensors have a detection limit in the attomolar range and can sense as few as 23 DNA molecules (; ).
Silver Nanoparticles in energy
In times of man-made global warming 鈥 and with it climate change 鈥 it is crucial to tackle general energy problems. Our efforts to contribute to this field is in the formation of silver nanoprisms and nanorods, which efficiently absorb infrared light. These can be coated in a silica shell and covalently embedded in a PMMA matrix for coating of windows (). In this way we have shown that the Ag-NPs are able to block the IR light efficiently with sub-mm film thickness. This is a well-going collaboration with the group of Xunli Zhang in Engineering.
Flow through reactors
Our focus is on designing cheap flow-through reactors for the synthesis of nanoparticles (; ), in particular silver nanospheres and nanoprisms, but they are also applicable to the fabrication of liposomes. We design the channels of the flow reactors according to best mixing of the different solutions and create a mould using 3D printing (). The reactor is then made using PDMS and either covering with a glass slide or adhesive tape. This allows to make a flow reactor in less than a day, at costs of less than 拢5.
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Research interests
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Current research
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Supervision
Current PhD Students
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Teaching
I am currently teaching in the following modules and projects:
- CHEM2028 Reaction Mechanisms in Organic Chemistry (module lead) (Y2S1)
- CHEM2036 Chemical solutions to environmental issues (Y2S2)
- CHEM6145 Supramolecular chemistry of functional molecules and materials (Y4S2)
- Year 3 and Year 4 projects
- MSc projects
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Biography
Dr Eugen Stulz is Associate Professor in Bio-organic and Materials Chemistry with a focus on DNA chemistry and nanomaterials for biological/medicinal and energy applications.
Eugen Stulz graduated from the University of Bern (Switzerland) in 1994, where he subsequently studied for a Ph.D. under the supervision of Prof. Christian J. Leumann. His thesis was concerned with the evaluation of artificial nucleases based on zirconium(iv) complexes. In 1999, he moved to Cambridge (UK), first as a Swiss National Science Foundation (SNF) Postdoctoral fellow, then as an Advanced Research Fellow (SNF), to the group of Prof. Jeremy K. M. Sanders. There he was working in the field of supramolecular chemistry and dynamic combinatorial libraries using phosphine-substituted porphyrins. During this time, he also held a part-time teaching position at Anglia Polytechnic University. In 2003, he moved to the University of Basel (Switzerland) as a Lecturer (Habilitand) with a Treubel Foundation Fellowship and started his independent research in the field of supramolecular chemistry using DNA as scaffold for multiporphyrin arrays. In 2006, he was appointed Lecturer in Chemistry at the 黑料社, promoted Senior Lecturer in 2010 and Associate Professor in 2014.
His key interests are in the field of DNA technology in its widest sense, spanning from supramolecular chemistry over DNA nanotechnology to medicinal applications in cancer therapy. In addition, he is involved in key research developing silver nanoparticles for energy applications.
Qualifications
Diploma in Chemistry, University of Bern, 1994
PhD in Chemistry, University of Bern, 1998
Appointments held
PDRA, Cambridge University, 1999-2002
Lecturer, Anglia Polytechnic University, 2002
Lecturer, University of Basel, 2003-2006
Lecturer, 黑料社, 2006-2010
Senior Lecturer, 黑料社, 2010-2014
Associate Professor, 黑料社, 2014-date
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Prizes
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