Andersen Lab for Biomolecular Design
The Andersen Lab at iNANO, Aarhus University develops nano-scale devices designed using biomolecules such as RNA and DNA as building blocks.
The Andersen Lab is focused on biomolecular design and is using biomolecules such as DNA and RNA as building blocks to obtain nano-scale structures and devices. Their research program can be divided into three principal areas; (i) understanding the fundamental principles of how biomolecules fold into unique and defined structures, (ii) designing, producing and characterizing both static and dynami
17/12/2022
An RNA Paranemic Crossover Triangle as A 3D Module for Cotranscriptional Nanoassembly In this study, a novel building block for construction at the nanoscale termed the RNA paranemic-crossover triangle (PXT) is introduced. PXTs can self-assemble isothermally into rigid motifs when tra...
27/06/2022
Lige nu summer Universitet mere end sædvanligt af nervøsitet, glæde og lettelse. Mange studerende afslutter nemlig deres kanditatstudier.
iNANO har fornøjelsen at fejre Kalinka Hansen, kandidat nr. 3️⃣0️⃣0️⃣, der har færdiggjort både bachelor- og kandidatstudiet i nanoscience ved Aarhus Universitet.
Stort tillykke til Kalinka og alle de andre dimittender der er blevet og bliver færdig på nanosciencestudiet og resten af Aarhus Universitet. 🎉 I er for seje! 💪
Det er faktisk 20 år siden at de første nanoscience-studerende startede på iNANO, hvor Aarhus Universitet var blandt de første i verden til at tilbyde en helt ny tværfaglig nano-uddannelse.
Både fysik, kemi og molekylærbiologi udgør en stor del af nanoscience og man bliver undervist i alle tre fag. Denne tværfaglighed gør kandidaterne til kompetente, robuste og vigtige spillere i udviklingen af fremtidens teknologier inden for områder som bæredygtige ♻️ materialer, energi, miljø, kommunikation, elektronik 📱 og fremtidens medicin 💊.
Læs mere om nanoscience-uddannelsen: https://bachelor.au.dk/nanoscience
Læs mere om 20 år med nanoscience ved Aarhus Universitet: https://inano.au.dk/about/inano-20-aars-jubilaeum
Natural Sciences - Aarhus Universitet
30/05/2022
Join the conference on "Artificial Biology – Molecular Design & Cell Mimicry" August 15-17 at iNANO, Aarhus University. The conference will feature invited speakers, selected speakers, poster sessions, scientific debates and conference dinner at the AROS art museum. Submit your abstract on June 1st and register by June 12th at https://events.au.dk/artbio/artbio-2022.html
28/04/2022
If you think RNA medicine is the future, then come work with us http://andersen-lab.dk! PhD position open on design and characterization. Deadline closing in: 1st of May. Read and apply here: https://phd.nat.au.dk/for-applicants/open-calls/february-2022-1/development-of-novel-rna-devices-based-on-kinetic-trapping
21/01/2022
Funding for folding!
https://inano.au.dk/about/news-events/news/show/artikel/new-grant-interdisciplinary-team-will-elucidate-the-rules-of-rna-folding
RNA story for high schools
23/06/2021
Congratulations 👏 to Ebbe S. Andersen who has received the Danish Polymer Prize, ATV | Elastyrenprisen 2021. 🏆
Yesterday the Danish Academy of Technical Sciences (ATV) awarded the Danish Polymer Prize to Associate Professor Ebbe S. Andersen for his pioneering research within biopolymers, including RNA origami aimed at biotechnological and medical applications.
The prize was handed over by the Chairman of the Prize Committee Professor Niels Chr. Nielsen.
Read more: https://inano.au.dk/about/news-events/news/show/artikel/assoc-prof-ebbe-s-andersen-honored-by-the-danish-academy-of-technical-sciences/
Interdisciplinary Nanoscience Center - INANO
Molecular Biology & Genetics - Aarhus University
Nat-Tech - Aarhus Universitet
Aarhus Universitet
Photo by Tom Jersø
Photo of Niels Christian Nielsen (AU), Ebbe S. Andersen (AU) and Anders Egede Daugaard (DTU)
15/06/2021
Study nanoscience - the ultimate combination between physics, chemistry and molecular biology! With English subtitles :-)
Læs nanoscience på Aarhus Universitet På nanoscience-uddannelsen på Aarhus Universitet lærer du at anvende fysik, kemi og molekylærbiologi til bl.a. at udvikle bæredygtige materialer, grøn energi...
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