A5061059285- Advanced biosensing and bioanalysis techniques
- RNA Interference and Gene Delivery
- Conducting polymers and applications
- Electrochemical sensors and biosensors
- Analytical Chemistry and Sensors
- DNA and Nucleic Acid Chemistry
- Molecular Junctions and Nanostructures
- Plasmonic and Surface Plasmon Research
- Electrochemical Analysis and Applications
- MXene and MAX Phase Materials
- Nanopore and Nanochannel Transport Studies
- Supramolecular Self-Assembly in Materials
- Molecular Sensors and Ion Detection
Ludwig-Maximilians-Universität München
2021-2024
Center for NanoScience
2021-2024
Middle East Technical University
2016-2018
Ankara (Czechia)
2017
Particle size is an important characteristic of materials with a direct effect on their physicochemical features. Besides nanoparticles, particle and surface curvature are particularly in the world lipids cellular membranes as cell membrane undergoes conformational changes many biological processes which leads to diverging local values. On account that, it develop cost-effective, rapid sufficiently precise systems that can measure nanoscale be translated for spherical particles. As...
Signal transmission in neurons goes along with changes the transmembrane potential. To report them, different approaches, including optical voltage-sensing dyes and genetically encoded voltage indicators, have evolved. Here, we present a DNA nanotechnology-based system demonstrated its functionality on liposomes. Using origami, incorporated optimized properties such as membrane targeting sensing modularly. As unit, used hydrophobic red dye anchored to an anionic green at connect...
A novel procedure for the preparation of organosoluble poly(<italic>o</italic>-aminophenol) is described.
A simple and efficient approach for the preparation of a biosensing platform was developed based on newly designed peptide-SNS type monomer conjugates. The involves electrochemical polymerization electrode surface. To synthesize peptide bearing monomers, SNS-type having carboxylic acid functional group anchored to C-terminal by solid phase synthesis via coupling reagents. Utilization peptides increase solubility monomers first investigated in this report. obtained soluble water, were fully...
Interacting with living systems typically involves the ability to address lipid membranes of cellular systems. The first step interaction a nanorobot cell will thus be detection binding membrane. Utilizing DNA origami, we engineered biosensor single‐molecule Fluorescence Resonance Energy Transfer (smFRET) as transduction mechanism for precise vesicle and cargo delivery. system hinges on hydrophobic ATTO647N modified single‐stranded (ssDNA) leash, protruding from origami nanostructure. In...
Interacting with living systems typically involves the ability to address lipid membranes of cellular systems. The first step interaction a nanorobot cell will thus be detection binding membrane. Utilizing DNA origami, we engineered biosensor single‐molecule Fluorescence Resonance Energy Transfer (smFRET) as transduction mechanism for precise vesicle and cargo delivery. system hinges on hydrophobic ATTO647N modified single‐stranded (ssDNA) leash, protruding from origami nanostructure. In...
Abstract Despite their growing popularity, many fundamental properties and applications of MXene materials remain underexplored. Here, the nonradiative energy transfer 2D titanium carbide are investigated application in single‐molecule biosensing is explored for first time. DNA origami positioners used single dye placement immobilized by a specific chemistry based on glycine‐MXene interactions, allowing precise control orientation surface. Each structure carries molecule at predetermined...
ABSTRACT Signal transmission in neurons goes along with changes the transmembrane potential. To report them, different approaches including optical voltage-sensing dyes and genetically encoded voltage indicators have evolved. Here, we present a DNA nanotechnology-based system. Using origami, incorporate optimize properties such as membrane targeting sensing modularly. As unit, use hydrophobic red dye anchored to an anionic green at connecting origami anchor. Voltage-induced displacement of...
ABSTRACT Interacting with living systems typically involves the ability to address lipid membranes of cellular systems. The first step interaction a nanorobot cell will thus be detection binding membrane. Leveraging programmable nature DNA origami, we engineered biosensor harnessing single-molecule Fluorescence Resonance Energy Transfer (smFRET) as transduction mechanism for precise vesicle detection. system hinges on hydrophobic ATTO647N modified single-stranded (ssDNA) leash, protruding...