Last chance to register to the 4th International Conference on Self-Assembly and Molecular Electronics.
Registration and abstract submission link: http://www.same.riverpublishers.com
Abstract submission deadline: 10 October 2018
Authors notification: 15 October 2018
Early bird registration deadline: 20 October 2018
Registration deadline: 5 November 2018
Full paper submission deadline 1 November 2018
FOCUS AREAS
- Molecular Electronics and Molecular Devices with a particular emphasis on DNA, peptide and protein based systems
- Self-Assembly in Nanoscience, Chemistry, Biology and Medicine
- Supramolecular Chemistry
- Modelling of Structural and Electronic Properties of Organic Molecules and Self Assembled Systems
- Plasmonics
- Biosensing and Lab-on-a-Chip devices
- Scanning Probe Microscopy
SELECTED TALKS
- Erik Reimhult, University of Natural Resources and Life Sciences, Austria:
Design of (Thermo) Responsive Polymer-Grafted Nanoparticles for Biological Applications - Olga Sosnovtseva, University of Copenhagen, Denmark:
Sense and sensitivity: SERS-based assessment of mitochondrial bioenergetics - Thomas M. Søndergaard Aalborg University, Denmark:
Optical resonances and field-enhancement in 3D metal nanorods - Laura Fumagalli University of Manchester, UK:
Probing the dielectric constant at the nanoscale: from thin films to DNA and confined water - Ioannis S. Chronakis Technical University of Denmark, Denmark:
Functional Electrospun Phospholipid Nano-microfibers - Steen Brøndsted Nielsen Aarhus University, Denmark:
Luminescence Spectroscopy of Rhodamine Homodimer Dications in Vacuo - Danny Porath The Hebrew University of Jerusalem, Israel:
Novel DNA-Based Molecules and Their Charge Transport Properties - Uri Sivan, Technion - Israel Institute of Technology, Israel:
The Last Nanometer - Hydration Structure of DNA and Solid Surfaces Probed by Ultra High Resolution AFM - Mikhail Shtilman, D.I.Mendeleyev University of Chemical Technology, Russia:
New Nanoscale Polymer Systems and Their Interaction with Living Objects - Laura Fabris Rutgers university, USA:
Gold Nanostar Assays for Oncology and Virology - Angana Ray, University of Southern California, USA:
Molecular Dynamics Simulations of CRISPR/Cas9 - Niclas Solin, Linköping University, Sweden:
Preparation of Protein materials for applications in photonics and bioelectronics - Suzhi Li, Xi'an Jiaotong Univeristy, China:
Frictional behavior of two-dimensional materials - Aleksey Drozdov, Aalborg University, Denmark:
Self-recovery, Fatigue and Anti-fatigue of Supramolecular Elastomers - Duncan S. Sutherland, Aarhus University, Denmark:
Colloidal lithography approaches to study plasmon coupling and plasmonic devices - Alexander Kotlyar, Tel Aviv University, Israel:
Synthesis of Long Double Stranded Concatemer Molecules by Self-Association of Short Single Stranded DNA Sequences - Andrew Pike, Newcastle University, UK:
Printing of self-assembled DNA hybrid material - Shalom Wind, Columbia University, USA :
Toward electronically-functional, self-assembling DNA nanostructures - Mingdong Dong, Aarhus University, Denmark:
Probing local electronic property of two-dimensional materials by atomic force microscopy - Louiza Bohn Thomsen, Aalborg University, Denmark:
Drug delivery to the brain: How to overcome the blood-brain barrier? - Jan Skov Pedersen, Aarhus University, Denmark:
Small-angle Scattering of X-rays and Neutrons as Structural Tools in Nanoscience: Block Copolymer Micelles, Protein-detergent Complexes, Microgels and other Nanoparticles - Victoria Birkedal, Aarhus University, Denmark:
Single molecule fluorescence investigations of DNA-based self-assembled structures - Rafael Taboryski, Technical University of Denmark, Denmark:
Self-assembly of block-copolymer structures for in-situ nano-lithography - Kasper Nørgaard, University of Copenhagen, Denmark:
Large-area molecular electronic devices from self-assembled monolayers - Ye Tao , Rowland Institute at Harvard, USA:
Kinetics of a Solid-Solid Charge Transfer Reaction - Donghong Yu , Aalborg University, Denmark:
Effects of Remote Substituents on Electrochemical Reduction of X-PhCH=NPhCH=CHPh-Y
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