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E u r o s c i c o n C o n f e r e n c e o n

Physical Chemistry and

Analytical Separation Techniques

October 08-09 , 2018

Amsterdam, Nether l ands

Journal of Organic & Inorganic Chemistry

ISSN: 2472-1123

Physical Chemistry and Analytical Separation Techniques 2018

A

number of technological challenges need to be overcome to move organic-based thin-film devices from the research stage

to the application level. In this talk, avenues toward the realization of organic electronics on the basis of ultrathin functional

organic layers are outlined, specifically by leveraging on the self-assembly process at interfaces. As an attempt to, large area

molecular junctions of outstanding robustness are presented and we show that they can be realized using densely packed

molecular metal-terpyridine complex oligomers, which might enable a versatile platform for functional optoelectronic layers.

By electron and optical spectroscopy, the electronic structure of the materials is elucidated and the robustness determined by

nanotribological studies. Finally, as an example for biomolecular photoconductors, Sn-cyt C protein layers are shown to act as

reversible photo-electrochemical switches upon integration into large area solid state junctions. The electrical properties of

this protein system is investigated using a novel Hg-drop setup, allowing to detect the electrical response of the most fragile

adsorbate layers.

vonwrochem@sony.de

New pathways for ultra-robust molecular

electronics and for light sensitive molecular

switches

Florian von Wrochem

1

, Zoi Karipidou

1

, Maria Anita Rampi

2

and

Wolfgang Wenzel

3

1

RIPE NCC-Sony Europe Ltd, Germany

2

University of Ferrara, Italy

3

Karlsruher Institute of Technology, Germany

J Org Inorg Chem 2018 Volume: 4

DOI: 10.21767/2472-1123-C6-018