DHL Relay Race 2017: “iNANO-walkers”


Our team “iNANO-walkers” has participated in annual DHL Relay Race in 5 km walk, one of the largest fun relays in the world. “iNANO-walkers” are taking part of the race since 2010.

Laszlo's PhD Defense


Today László Kékedy-Nagy has defended his PhD work on "Electrical Properties of DNA and Their Use in Biosensors for Cancer Biomarkers"
Opponents were: Professor Heinz-Bernhard Kraatz, Vice-Principal Research at the Department of Physical and Environmental sciences, University of Toronto, Canada;
Professor Robert J. Foster, Director of National Centre for Sensor Research, School of Chemical Sciences, Dublin City University, Dublin, Ireland.
Chairman: Professor Troels Skrydstrup, iNANO and Department of Chemistry, Aarhus University.

Congratulations, Laszlo! You did a great job! 


15th iNano Annual Meeting


Deby has received the first prize in poster session for her poster on cellulase electrochemical assay. Congratulations!

67th Annual Meeting of the International Society of Electrochemistry

21-26 August 2016, the 67th Annual Meeting ot the International Society of Electrochemistry "Electrochemistry: from Sense to Sustainability" took place in the Hague, the Netherlands. Here we are, with dear friend and colleague Christian Amatore.

Laszlo, Deby, and Isabel, we had amazing presentations. Congratulations!

Deby and László are finalists of Dean's Challenge 2015


Deby Fapyane and László Kékedy-Nagy with their innovation project "Sneezens" were nominated as finalists of Dean's Challenge 2015 of Aarhus University.

Congratulations, guys! Ideas are in the air - Teen Tech Award 2015.


Esther wins Hanze Innovation Award 2015, Hanze University of Applied Sciences, Groningen, the Netherlands


The Bachelor project "Electrochemical biosensors for clinical analysis of micro RNA biomarkers of cancer" performed by Esther Tanumihardja during her Erasmus Programme stay in our group won Hanze Innovation Award 2015 at Hanze University of Applied Sciences, Groningen, the Netherlands.

Congratulations, Esther!

Laszlo's Part A Exam


Today Lazslo Kekedy-Nagy passed through his Part A exam on his PhD work on "Exploitation of Electron Transfer Properties of DNA in Bioelectronic and Biosensing Devices". 
Examiners were: Assoc. Professor Noemi Rozlosnik, Department of Micro- and Nanotechnology, Technical University of Denmark; and Assoc. Professor  Torben Rene Jensen, Department of Chemistry and iNANO, Aarhus University, Denmark.
Well done and keep going, Lazslo!

Summer School in Molecular Electrochemistry, Microechem 2015

29 July - 2 June the 2nd Summer School in Molecular Electrochemistry, Microechem 2015, took place in Amealco de Bonfil, Queretaro, Mexico. Tutorial lectures have been given by Flavio Maran, Annia Galano, Jiri Ludwik, Jerzy Radecki, Andrew P. Doherty, Hanna Radecka and Elena Ferapontova. It was a great time and experience! Here is the link.


Full size image is here.


Collaboration with the Tel-Aviv University (Israel, March 2015)


Laszlo has spent two weeks working in the lab of Prof. Alexander Kotlyar at the George S. Wise Faculty of Life Sciences, Tel-Aviv University working on DNA nanotechnology. Welcome back, Laszlo!


SDC Nanobiotechnology Course


Dear Nanoscience 2015-2016 class! Congratulation with passing the examination. It was a pleasure to teach you. Good luck in your future studies!



13th iNANO Annual Meeting


Isabel has received the first prize in poster session for her poster on wiring of proteins to electrodes by dendrimeric structures. Congratulations! 


Thank you and Goodbye, Marta!


After six month's stay in our group, Marta Jarczewska, the guest student from Warsaw University of Technology, returned back home to Poland to finalize her PhD studies.  We will be missing you, Marta!


DHL Relay Race 2014: “iNANO-walkers”


Our team “iNANO-walkers” has participated in annual DHL Relay Race in 5 km walk. With its 186,000 participants, the DHL Relay Race is the largest fun run in the world. “iNANO-walkers” are taking part of the race since 2010.


Elena Ferapontova receives grant for environmental biosensor development


Rapid detection of bacteria, virus, fungi or protozoa is the first step in protecting human health. However, available detection methods often require days to weeks. The Danish Council of Independent Research (FTP) has granted funds for the development of ultrasensitive electrochemical biosensor nanotechnology for rapid, species-specific and sensitive quantification of diverse pathogenic microorganisms in air and water at their attomolar concentrations. This nanotechnology will be cost-effective, easy-to-handle, ultra-sensitive, and will allow rapid and simultaneous quantification of several different organisms in environmental monitoring of drinking water supplies, recreational waters, and hospital and city air.

The project is performed in collaboration with the Environmental Microbiology and Biotechnology group, Environmental Science, Roskilde, Danish sensor-producing company Unisense, pump-producing Grundfos, and air-analyser producer TSI Inc., USA. 

Read FTP news here (in Danish).

iNANO and Shanghai researchers improve photoelectrocatalysis of water oxidation


A large part of total world energy consumption is derived from non-renewable fossil fuels. Replacing this source of energy by solar energy via harvesting it in photovoltaic devices is a challenging and highly attractive alternative, particularly through the photoelectrocatalytic water splitting reaction schemes.

Within the China-Denmark collaborative program: the Sino-Danish Center for Education and Research (SDC), the iNANO (Biosensors and Bioelectrocatalysis group of Assoc. Prof. Elena Ferapontova) and the Shanghai Institute of Applied Physics (the group of Prof. Chunhai Fan) have developed metal-doped hematite photoanodes with improved photoelectrocatalytic activity and efficiency in the water splitting reaction, therewith demonstrating one of the best hitherto reported characteristics of photoelectrocatalysis.

The research article entitled “Visible Light Driven Photoelectrochemical Water Oxidation by Zn- and Ti- doped Hematite Nanostructure” is just published in ACS Catalysis.

47th Heyrovksy Discussion (Czech Republic)


Last week (May 25th-29th) we (Paula, Rui, László and I) were presenting at 47th Heyrovsky Discussion on Electrochemistry of Organic and Bioactive Compounds in Trest (Czech Republic). The meeting was on occasion of the 55th anniversary of awarding Professor Jaroslav Heyrovsky by Nobel Prize for the invention of polarography.

The following was presented:

-        Electric field effects on interfacial behavior of surface-tethered DNA (invited lecture, Elena)

-        Direct electrochemical and AFM detection of amyloid-beta peptide aggregation on basal plane HOPG (Paula)

-        DNA biosensor exploiting direct DNA immobilization onto gold via phoshorothioated dA* tags (Rui)

-        Electroanalysis of modes of methylene blue binding to gold-tethered DNA (László)

We had a lot of discussions – it was a true Heyrovksy discussion!
For László it was a first experience, after only 3 months of his PhD, he showed very good results;
Rui’s presentation was very well received, even Prof. Emil Palecek was impressed;
Paula demonstrated that she is becoming a real expert in electroanalysis of amyloidosis.
Congratulations to all!

Well done, angels!

Charlie (aka Elena)

Alireza's PhD Defense


Today Alireza Abi has defended his PhD work on "Novel DNA Technologies for Electrochemical Genosensor and Aptasensor Development"
Opponents were: Professor Heinz-Bernhard Kraatz, Department of Physical and Environmental sciences, University of Toronto, Canada; and Professor Jens Ulstrup, Department of Chemistry, Technical University of Denmark, Denmark.
Chairman: Professor Daniel Otzen, iNANO and Department of Molecular Biology and Genetics, Aarhus University.


Good luck in your future career, Alireza.






Amyloid formation of proteins and peptides play a crucial role in many diseases such as Alzheimer’s, Diabetes and Parkinson’s disease. This makes amyloid formation a research field of high importance although it is not yet fully understood. Hence the development of fast and reliable characterization methods for real-time monitoring of protein misfolding is crucial if detection or treatment is to be carried out successfully.

Now a group of iNANO scientists (from the groups of Elena Ferapontova and Daniel Otzen) have developed a new way of detecting the extent of aggregation of alpha-synuclein (alphaSN), involved in Parkinson's disease and other neurodegenerative disorders by monitoring the electrochemical oxidation of tyrosine (Tyr) residues ?SN.

This allows for an easy way of detection and monitoring small monomeric species of alphaSN which are believed to be the toxic species in the overall fibrillation pathway. This new technique will serve as a great supplement to fluorescence which is best used for monitoring fibers and larger molecules. Now researchers can easily follow the whole process in vivo from monomer to fibril.

The research article is recently published in the Analyst.

Correlation between electrochemical and ThT fluorescence analysis during different phases of the alpha-synuclein fibrillation process. The two extreme areas correspond to monomer (0h) and fibrillated states (40-80h) of the protein