For
each poster presentation one poster wall will be
available.
These poster walls have the following size
(don't feel obliged to
really fill it):
Width:
97cm
Height: 250cm
Posters can be put
up for the full duration of the event. Discussions during the
breaks are encouraged.
There will be poster blizz sessions taking place on Tuesday, 6th May. Each poster is presented in 2 minute and 1 slide.
The poster sessions take place on Monday, 5th May, from 19:30 to 20:30, on Tuesday, 6th May, from 19:30 to 20:30 and on Wednesday, 7th May, 17:45 to 19:00.
1 | Amodio, Alessia | Folding-upon-binding and signal-on electrochemical DNA sensor with high affinity and specificity |
2 | Castronovo, Matteo | Enzyme confinement and regulation in a self-assembled, nucleic acid matrix |
3 | Coral, Lucia | Enzyme reactivity of DNA origami |
4 | Göckel, Anja & Vollmer, Sven | Designed DNA folding motifs that store energy-rich biomolecules |
5 | Günther, Katrin | Motility of DNA-functionalized Janus particles |
6 | Hartl, Caroline | Conjugation of magnetic nanoparticles to chiral DNA-assembled plasmonic structures |
7 | Heck, Christian | Gold nanolenses for surface-enhanced Raman scattering on DNA origami substrates |
8 | Helmi, Seham | Nano scale metallization of DNA nanostructures |
9 | Hernandez Ainsa, Silvia | Smart DNA origami nanopores |
10 | Jusuk, Ija | Superresolution fluorescence imaging of nanopatterned DNA origamis with semisynthetic fluorescent protein-DNA conjugates. |
11 | Keller, Adrian | Probing electron-induced biodamage at the single-molecule level using DNA origami templates |
12 | Kick, Alfred | EGNAS: A software for exhaustive DNA sticky end design |
13 | Kick, Alfred | Molecular barcoding for SPR-based DNA microarrays |
14 | Kocabey, Samet | Microinjected DNA nanotubes as intracellular delivery vehicles in vivo |
15 | Leubner, Susanne | Using DNA origami as templates for precise assembly of inorganic nanoparticles |
16 | Markesevic, Nemanja | Self-assembled fluorescent Ag:DNA emitters on DNA tubes |
17 | Porchetta, Alessandro | Strategies to tune, extend and narrow the dynamic range of DNA-based nanoswitches |
18 | Prinz, Julia | DNA origami substrates for highly sensitive surface-enhanced Raman scattering |
19 | Raab, Mario | Standards for superresolution fluorescence microscopy based on DNA origami |
20 | Reinhardt, Aleks | Simulations of DNA brick self-assembly |
21 | Rotaru, Alexandru | Transfer of a protein pattern from self-assembled DNA origami to a functionalized gold surface |
22 | Said, Hassan | M1.3 - A small scaffold for DNA origami |
23 | Sajfutdinow, Martin | Elucidating the assembly of brick-based DNA nanostructures |
24 | Schreck, John | Characterizing the bending and flexibility induced by bulges in DNA duplexes |
25 | Schreyer, Elisabeth | FRET studies on conformational changes of a DNA tube |
26 | Shen, Boxuan | Dielectrophoretic trapping and electrical measurement of 3D DNA origami |
27 | Shen, Xibo | 3D plasmonic chiral colloids |
28 | Snodin, Ben | Studying DNA origami using a coarse-grained model of DNA |
29 | Sperling, Evgeni | Single DNA molecules in nanofluidic channels |
30 | Stefanovic, Darko | Rational design of structured substrates for DNAzyme signaling |
31 | Stopar, Alex | DNA origami as matrices for enzyme imprinting |
32 | Teshome, Bezuayehu | Topography-controlled alignment of DNA origami nanotubes on nanopatterned surfaces |
33 | Vietz, Carolin | Optimization of self-assembled nanoantennas for diagnostics |
34 | Weiser, Martin | Perylene bisimides in DNA and their potential usage as photonic wires |
35 | Xing, Yongzheng | A highly sensitive, label-free sensing platform based on DNA origami and graphene oxide nanosheets |
For further information please e-mail to: dnatec14pks.mpg.de