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Synthesis of Functional Organic Nanotubes As Building Blocks for Bottom-Up Nanofabrication

Hecht, Stefan, Prof. (Organic Chemistry and Functional Materials)

Duration of Project: 10/2006 - 06/2007

In order to provide a chemical contribution to the multidisciplinary nanoscience effort, a synthetic approach has been developed to generate key building blocks for the bottom-up approach to device miniaturization. On the basis of helically folding p ...

Orthogonal Modification of Biopolymers With Variable Peptide Sequences via Ultra-Rapid Covalent Modification

Börner, Hans, Prof. Dr. (Organic Synthesis of Functional Systems)

Duration of Project: 01/2011 - 12/2013

In this project ultra-rapid ambient temperature and catalyst-free coupling chemistry is investigated, to be employed to bind monomer sequence-defined peptides onto poly(saccaride) based surfaces. The aim is to ultimately develop an access route to pe ...

Hierarchical Self-Assembly Based on Surface-Confined Foldamers: A Bottom-up Approach to Nanopatterning (II)

Hecht, Stefan, Prof. (Organic Chemistry and Functional Materials)

Duration of Project: 01/2008 - 01/2009

Hierarchical self-assembly is ubiquitous in Nature. It forms the basic construction technique used for the self-assembly from small proteins to multicellular organisms. It remains, however, a great challenge to create artificial nanostructures that c ...

Hierarchical Self-Assembly Based on Surface-Confined Foldamers: A Bottom-up Approach to Nanopatterning (I)

Hecht, Stefan, Prof. (Organic Chemistry and Functional Materials)

Duration of Project: 10/2006 - 12/2008

Hierarchical self-assembly is ubiquitous in Nature. It forms the basic construction technique used for the self-assembly from small proteins to multicellular organisms. It remains, however, a great challenge to create artificial nanostructures that c ...

EU: Monomer Sequence Control in Polymers: Toward Next-Generation Precision Materials (EURO-SEQUENCES)

Börner, Hans, Prof. Dr. (Organic Synthesis of Functional Systems)

Duration of Project: 01/2015 - 12/2018

The aim of the project “Euro-Sequences” is to establish a multidisciplinary training network on the emerging topic of sequence-controlled polymers. It has been shown during the last five years that such polymers open up unprecedented options for the ...

DFG-Temporary Position: Visible-Light-Responsive Molecular Materials

Hecht, Stefan, Prof. (Organic Chemistry and Functional Materials)

Duration of Project: 01/2017 - 12/2022

The central objective of this project is to use visible light as a fuel or control element to activate advanced functions and harness macroscopic responses in tailor designed molecular materials via the structural modification of incorporated optimiz ...

DFG Research Grant: Template Directed Synthesis of Complex Monomer Sequences in Chain-Growth Polymerizations

Börner, Hans, Prof. Dr. (Organic Synthesis of Functional Systems)

Duration of Project: 02/2015 - 12/2018

Nature obtains highly complex and functional structures by exerting an extremely high degree of control over the monomer sequence in biopolymers. This projects aims to develop a method by which more control can be exerted over the monomer sequence of ...

DFG Research Grant: Mussel-Inspirit Polymerization: The Enzyme Free Route of an Tyrosinase Activated Polymerization

Börner, Hans, Prof. Dr. (Organic Synthesis of Functional Systems)

Duration of Project: 03/2020 - 02/2023

Objective of the research proposal is the investigation of an enzyme free route as alternative to the recently established tyrosinase-activated polymerization of oligopeptides, which was leading to artificial mussel glue proteins with remarkable adhe ...

DFG Research Grant: Mussel-Adhesion Derived Polymerization: From Tyrosinase Activated Polymerization Towards Multifunctional Polymers

Börner, Hans, Prof. Dr. (Organic Synthesis of Functional Systems)

Duration of Project: 01/2014 - 12/2017

Research objective of the proposal is the introduction of a novel class of macromonomers, which provides the possibility to exhibit a polymerization after being enzymatically activated. As a result of the enzyme activated polymerization, segmented co ...

DFG Research Grant: Fundamentals of Molecular Electrical Doping of Organic Semiconductors (FoMEDOS)

Koch, Norbert, Prof. Dr. techn. (Structure, Dynamics and electronic Properties of Molecular Systems)

Duration of Project: 03/2016 - 10/2019

Today's information society depends on our ability to controllably dope inorganic semiconductors, such as silicon, thereby tuning their electrical properties to application-specific demands. For opto-electronic devices, however, organic semiconductor ...

DFG Research Grant: Designing Collagen-Inspired Template-[Protein]3-Hybrids: From Switchable High Molecular Weight Nanostructures Towards Processing Collageneous Materials for Cell Culture

Börner, Hans, Prof. Dr. (Organic Synthesis of Functional Systems)

Duration of Project: 01/2014 - 12/2017

Objectives of the joint project are the synthesis of collagen-inspired, template-protein hybrids with high molecular weight. Switchable templates enable activation of self-assembly into anisotropic nano-objects with collageneous triple helices. The p ...

CRC 765/3: Spacer Structure (SP A03)

Hecht, Stefan, Prof. (Organic Chemistry and Functional Materials)

Duration of Project: 01/2008 - 12/2019

In this project functional host-guest systems will developed by exploiting multivalent and cooperative effects in combination with photoswitchable non-covalent interactions. Thus light will be used to externally control the supramolecular polymerizat ...

Colloid-Supported Synthesis of Peptides and Peptide-Polymer Conjugates

Börner, Hans, Prof. Dr. (Organic Synthesis of Functional Systems)

Duration of Project: 02/2010 - 01/2013

The project investigates the possibilities of colloids with permanent surfaces and defined surface functionalities as quasi-soluble supports for the automated colloid-supported synthesis of peptides and bioconjugates.

Biocombinatoric Approach Towards Enzymatically Active Glues

Börner, Hans, Prof. Dr. (Organic Synthesis of Functional Systems)

Duration of Project: 03/2011 - 03/2015

Ziel des Projektes ist die Darstellung enzymatisch aktivierbarer Klebstoffe auf der Basis von Peptid-Polymer-Konjugaten. Die durch Enzyme anschaltbaren Klebsysteme sollen aktivierbar auf Metall- bzw. Metalloxidoberflächen adhärieren.

Kooperationsanbahnung mit dem Iran

Puhlmann, Nikolai, Dr. rer. nat. (Director / Office)

Duration of Project: 10/2018 - 09/2019