Projects (13)

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  • Kooperationsanbahnung mit dem Iran

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

    Duration of Project: 10/2018 - 09/2019

    Financer: DFG: Sonstiges
    The Humboldt-Universität zu Berlin, the University of Tehran, the Tarbiat Modares University, and the Amiurkabir University of Technology are interested in establishing scientific cooperations in the field of natural and material sciences.
    For this ...
  • Biocombinatoric Approach Towards Enzymatically Active Glues

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

    Duration of Project: 03/2011 - 03/2015

    Financer: DFG: Sachbeihilfe

    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.

  • 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

    Financer: DFG: Sachbeihilfe

    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.

  • CRC 765/3: Spacer Structure (SP A03)

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

    Duration of Project: 01/2008 - 12/2019

    Financer: DFG: Sonderforschungsbereich - Beteiligungen

    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 ...

  • 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

    Financer: DFG: Sachbeihilfe

    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 ...

  • 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

    Financer: DFG: Sachbeihilfe

    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 ...

  • 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

    Financer: DFG: Sachbeihilfe

    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 (II)

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

    Duration of Project: 01/2008 - 01/2009

    Financer: DFG: Sachbeihilfe

    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 ...

  • 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

    Financer: DFG: Sachbeihilfe

    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 ...

  • 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

    Financer: DFG: Sachbeihilfe

    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 ...

  • 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

    Financer: DFG: Sachbeihilfe

    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 ...

  • 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

    Financer: DFG: Sachbeihilfe

    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 ...

  • 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

    Financer: DFG: Sachbeihilfe

    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 ...

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