Projects (86)

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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 ...
  • Charge separation at nanostructured molecular donor-acceptor interfaces

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

    Duration of Project: 09/2010 - 08/2012

    Financer: DFG: Sachbeihilfe

    This project seeks to unravel the electronic structure of conjugated organic molecules on conductive surfaces and at heterointerfaces by means of photoelectron spectroscopy. Specifically, parameters of importance for photovoltaic cells like hole and ...

  • Charge transfer at organic semiconductor hetero-interfaces

    Opitz, Andreas, PD Dr. rer. nat. (Structure, Dynamics and electronic Properties of Molecular Systems)

    Duration of Project: 03/2014 - 12/2017

    Financer: DFG: Sachbeihilfe

    In this project we plan to study charge transfer at organic semiconductor hetero-interfaces using the joint expertise of three groups. Our aim is to obtain a comprehensive understanding of the electronic processes involved by combining complementary ...

  • Charge transfer at organic semiconductor hetero-interfaces: Towards a unified picture in intermediate cases of ground state and excited state scenarios

    Opitz, Andreas, PD Dr. rer. nat. (Structure, Dynamics and electronic Properties of Molecular Systems)

    Duration of Project: 05/2019 - 05/2022

    Financer: DFG: Sachbeihilfe

    In this proposal, we study the charge transfer at organic semiconductor hetero-interfaces using the joint expertise of three groups. Our aim is to obtain a comprehensive understanding of the electronic processes and optical properties involved by com ...

  • Compressed Sensing in Ptychography and Transmission Electron Microscopy

    Van den Broek, Wouter, (Experimental Physics / Structural Research and Electron Microscopy)

    Duration of Project: 07/2017 - 03/2021

    Financer: DFG: Sachbeihilfe

    This project uses compressed sensing to improve object retrieval from ptychographic data sets consisting out of HRTEM images and diffraction patterns, and to speed up data recording and thus decrease electron dose and specimen damage. More specifical ...

  • Concept for the production of cathodes using nanowires (transfer bonus)

    List-Kratochvil, Emil J. W., Prof. Dr. (Experimentelle Physik, Hybride Bauelemente)

    Duration of Project: 06/2016 - 07/2016

    Concept for the production of cathodes using nanowires

  • Connecting Scales in Vibrational Imaging: Synchrotron Microscopy Station for Spatial-, Temporal- and Polarization-Resolved Spectroscopy

    Kneipp, Janina, Prof. Dr. rer. nat. (Physical Chemistry)

    Duration of Project: 07/2019 - 06/2022

    Financer: BMBF
    The characterisation of the molecular structure, composition and interactions of a biological, inorganic or synthesised material is a prerequisite for understanding its properties and functions.
    Through infrared (IR) absorption or Raman scattering, ...
  • Controlled thermoelectric properties of low-dimensional charge carrier systems in semiconductor heterostructures

    Fischer, Saskia, Prof. Dr. rer. nat. (New Materials)

    Duration of Project: 08/2011 - 12/2012

    Financer: DFG: Sachbeihilfe

    The focus of this cluster project in the DFG priority programme SPP1386 "Nanostructured thermoelectrics" is the thermoelectric properties of low-dimensional charge-carrier sysequences of thermal gradients on coherent electron t ...

  • CRC 1404/1: Deriving Trust Levels for Multi-Choice Data Analysis Workflows (SP A03)

    Draxl, Claudia, Prof. Dr. Dr. h.c. (Theoretical Physics / Solid State Theory)

    Duration of Project: 07/2020 - 06/2024

    Financer: DFG: Sonderforschungsbereich

    DAWs often contain series of analysis tasks where for each task a multitude of possible programs exist (multi-choice DAW). A comprehensive characterization of the input data often requires executing several of these programs to combine their respecti ...

  • CRC 1404/1: Portable and Adaptive Data Analysis Workflows for Real-Time 3D Vision (SP B02)

    Eisert, Peter, Prof. Dr.-Ing. (Visual Computing)

    Duration of Project: 07/2020 - 06/2024

    Financer: DFG: Sonderforschungsbereich

    In many Natural Sciences, microscopy is key to discover things that have never been seen or captured by cameras before. In high-end microscopy, resolution approaches the wavelength of the probing radiation, leading to images that are recorded with pa ...

  • CRC 658/1-2: Structure-Switching Relationships in Ordered Covalent and Non-Covalent Mono- and Multiswitch Architectures at Surfaces (SP B08)

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

    Duration of Project: 09/2007 - 06/2017

    Financer: DFG: Sonderforschungsbereich - Beteiligungen

    Utilizing a synthetic approach, this project is devoted to correlate the chemical structure of simple molecular switches as well as covalent and non-covalent multiple switching systems with their respective switching behaviour at surfaces. Fundamenta ...

  • CRC 658/3: Excitations of Molecular Switches on Surfaces: Insight from First-Principles (SP C06)

    Draxl, Claudia, Prof. Dr. Dr. h.c. (Theoretical Physics / Solid State Theory)

    Duration of Project: 07/2013 - 06/2017

    Financer: DFG: Sonderforschungsbereich - Beteiligungen

    Mittels parameterfreien Methoden der Dichtefunktionaltheorie und Vielteilchenstörungstheorie wird die Wechselwirkung von schaltbaren Molekülen mit unterschiedlichen Oberflächen im Hinblick auf Geometrie, Anordnung der elektronischen Niveaus und optis ...

  • CRC 787/1: Single Photons for Quantum Information (SP C02)

    Benson, Oliver, Prof. Dr. rer. nat. (Experimental Physics / Nanooptics)

    Duration of Project: 01/2008 - 12/2019

    Financer: DFG: Sonderforschungsbereich - Beteiligungen

    The goal of this project is to realize reliable and robust single photon sources and to use them for quantum information processing. After first studies with optically excited sources emitting at 800–900 nm we want to implement sources in the telecom ...

  • CRC 951/2: Active Control of Charge Transport and Electro-Optical Interface Properties in HIOS (SP B14)

    List-Kratochvil, Emil J. W., Prof. Dr. (Experimentelle Physik, Hybride Bauelemente)

    Duration of Project: 04/2017 - 06/2019

    Financer: DFG: Sonderforschungsbereich

    The central objective of this project is to study and use monolayers of transition metal dichalcogenides (TMDCs) in combination with photochromic and solvatochromic molecules to realize novel opto-electronic functionalities and devices. For this purp ...

  • CRC 951/2: Enabling Imaging and Spectroscopy of Electron Beam Sensitive Hybrid Materials (SP A12)

    Koch, Christoph T., Prof. PhD (Experimental Physics / Structural Research and Electron Microscopy)

    Duration of Project: 02/2017 - 06/2019

    Financer: DFG: Sonderforschungsbereich

    The very special opto-electronic properties of hybrid inorganic/organic systems (HIOS) being investigated within this CRC are largely determined by the electronic structure and distribution of charges at the inorganic/organic interface. Holographic i ...

  • CRC 951/2: Exploring Molecular-Scale Structure Formation of HIOS by All-Atom Molecular Dynamics Computer Simulations (SP A01)

    Dzubiella, Joachim, Prof. Dr. (Theory and Simulation of Many-body Systems)

    Duration of Project: 07/2015 - 06/2019

    Financer: DFG: Sonderforschungsbereich

    This project explores the molecular scale (0.1-10 nm; 0.001-100 ns) structure formation of HIOS by applying (classical) atomistically resolved molecular dynamics computer simulations of conjugated organic molecules (COMs) on inorganic semiconductor s ...

  • CRC 951/2: HIOS – Coherent amplification and lasing of metal/organic hybrid structures (SP B02)

    Benson, Oliver, Prof. Dr. rer. nat. (Experimental Physics / Nanooptics)

    Duration of Project: 07/2015 - 06/2019

    Financer: DFG: Sonderforschungsbereich

    The central goal of our project is to establish surface plasmon polariton (SPP) directional propagation by a chiral hybrid inorganic/organic system (HIOS). For this a plasmonic antenna-wire system is assembled on a HIOS consisting of a two-dimensiona ...

  • CRC 951/2: HIOS – Electronic Coupling in Inorganic/Organic Semiconductor Hybrid Structures for Opto-Electronic Function (SP B03)

    Blumstengel, Sylke, (Experimentelle Physik, Hybride Bauelemente)

    Duration of Project: 07/2015 - 06/2019

    Financer: DFG: Sonderforschungsbereich

    A central goal of this project is the understanding and tailoring of excitonic coupling and charge transfer in hybrid inorganic/organic systems (HIOS) composed of monolayers (ML) of transition metal dichalcogenides (TMDC) and conjugated organic molec ...

  • CRC 951/2: HIOS – Nanowires Grown From Photocatalytically Active Organic Nanotubular Templates (SP A06)

    Rabe, Jürgen P., Prof. Dr. rer. nat. (Experimental Physics / Physics of Macromolecules)

    Duration of Project: 07/2015 - 06/2019

    Financer: DFG: Sonderforschungsbereich

    In this project plasmon excitations in ultrathin silver wires surrounded by conjugated organic molecules are studied. The preparation of the silver wires from solution will be optimized with respect to length and crystallinity. The plasmon resonances ...

  • CRC 951/2: HIOS – Surface-Selective Functionalization of Inorganic Semiconductors (SP A08)

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

    Duration of Project: 07/2015 - 06/2019

    Financer: DFG: Sonderforschungsbereich

    During the past funding period, we have learned how to adjust the work function of ZnO surfaces in the interval ranging from 2.2 eV to 6.5 eV using dipolar organophosphonates and strong molecular donors/ acceptors, and we have acquired understanding ...

  • CRC 951/2: HIOS – Theory of Active Hyperbolic Metamaterials and SPASER Action (SP B10)

    Busch, Kurt, Prof. Dr. rer. nat. (Theoretical Physics / Theoretical Optics)

    Duration of Project: 07/2015 - 06/2019

    Financer: DFG: Sonderforschungsbereich

    The development of a comprehensive theoretical framework for the analysis of two prototypical hybrid plasmonic systems is suggested. First, Hyperbolic Metamaterials (HMMs), i.e., structures consisting of alternating layers of plasmonic and dielectric ...

  • CRC 951/2: HIOS – Theory of Transfer Processes and Optical Spectra of Molecule, Inorganic Semiconductor and Metal Nanoparticle Hybrid Systems (SP B06)

    May, Volkhard, (Experimental Physics / Photobiophysics)

    Duration of Project: 07/2015 - 06/2019

    Financer: DFG: Sonderforschungsbereich

    Coupled excited electronic states of hybrid systems shall be investigated theoretically with a focus on larger structures where an ab initio description is not possible. The systems combine supramolecular complexes or layers of conjugated organic mol ...

  • CRC 951/2: HIOS – Transmission Electron Microscopy of HIOS (SP Z02)

    Koch, Christoph T., Prof. PhD (Experimental Physics / Structural Research and Electron Microscopy)

    Duration of Project: 07/2015 - 06/2019

    Financer: DFG: Sonderforschungsbereich

    This project will provide transmission electron microscopy (TEM) service for the structural and chemical characterization of HIOS to the CRC. The knowledge of the structural and chemical properties of HIOS is essential for the thorough understanding ...

  • CRC 951/2: HIOS – ZnO/Organic Hybrid Structures (SP A05)

    Benson, Oliver, Prof. Dr. rer. nat. (Experimental Physics / Nanooptics)

    Duration of Project: 07/2015 - 06/2019

    Financer: DFG: Sonderforschungsbereich

    We search for epitaxy-like regimes in inorganic/organic semiconductor hybrid growth by employing the atomistic, electrostatic, and topological structure of the inorganic surface (ZnO, GaN). Goal is the generation of HIOS with properly defined interfa ...

  • CRC 951/2: Surface-Selective Functionalization of Inorganic Semiconductors (SP A04)

    Heimel, Georg, Dr. (Structure, Dynamics and electronic Properties of Molecular Systems)

    Duration of Project: 07/2015 - 06/2019

    Financer: DFG: Sonderforschungsbereich

    Methods of first-principles electronic-structure theory will be employed to design self-assembled monolayers (SAMs) of small organic molecules that are covalently linked to zinc-oxide (ZnO) surfaces. The targeted SAMs serve two purposes. Firstly, the ...

  • CRC 951/2: Theory of Opto-Electronic Excitations and Excitation Dynamics at Hybrid Inorganic/Organic Interfaces (SP B11)

    Draxl, Claudia, Prof. Dr. Dr. h.c. (Theoretical Physics / Solid State Theory)

    Duration of Project: 07/2015 - 06/2019

    Financer: DFG: Sonderforschungsbereich

    We are aiming at an in-depth understanding of level alignment, electronic structure, optical excitations and excitation dynamics in hybrid materials, consisting of π-conjugated molecules and transition metal dichalcogenides (TMDCs). To reach these go ...

  • CRC 951/3: Active Control of Charge Transport and Electro-Optical Interface Properties in HIOS (SP B14)

    List-Kratochvil, Emil J. W., Prof. Dr. (Experimentelle Physik, Hybride Bauelemente)

    Duration of Project: 07/2019 - 06/2023

    Financer: DFG: Sonderforschungsbereich

    The central objective of this project is to study and use monolayers of transition metal dichalcogenides (TMDCs) in combination with photochromic and solvatochromic molecules to realize novel opto-electronic functionalities and devices. For this purp ...

  • CRC 951/3: Central Tasks (SP Z03)

    Koch, Norbert, Prof. Dr. (Head of Department / Secretary)

    Duration of Project: 07/2019 - 06/2023

    Financer: DFG: Sonderforschungsbereich

    Z03 is responsible for the distribution, administration, and supervision of the CRCs central funds. This includes the allocation of travel and visiting researcher funds to the projects of the CRC as well as the approval of business trips and invitati ...

  • CRC 951/3: Chiral Coupling in Hybrid Plasmonic Nanostructures (SP B02)

    Benson, Oliver, Prof. Dr. rer. nat. (Experimental Physics / Nanooptics)

    Duration of Project: 07/2019 - 06/2023

    Financer: DFG: Sonderforschungsbereich

    The central goal of our project is to establish surface plasmon polariton (SPP) directional propagation by a chiral hybrid inorganic/organic system (HIOS). For this a plasmonic antenna-wire system is assembled on a HIOS consisting of a two-dimensiona ...

  • CRC 951/3: Electronic Coupling in Inorganic/Organic Semiconductor Hybrid Structures for Opto-Electronic Function (SP B03)

    Blumstengel, Sylke, (Experimentelle Physik, Hybride Bauelemente)

    Duration of Project: 07/2019 - 06/2023

    Financer: DFG: Sonderforschungsbereich

    A central goal of this project is the understanding and tailoring of excitonic coupling and charge transfer in hybrid inorganic/organic systems (HIOS) composed of monolayers (ML) of transition metal dichalcogenides (TMDC) and conjugated organic molec ...

  • CRC 951/3: Enabling High-Resolution Imaging and Spectroscopy of Electron Beam Sensitive Hybrid Material Systems (SP A12)

    Koch, Christoph T., Prof. PhD (Experimental Physics / Structural Research and Electron Microscopy)

    Duration of Project: 07/2019 - 06/2023

    Financer: DFG: Sonderforschungsbereich

    The very special opto-electronic properties of hybrid inorganic/organic systems (HIOS) being investigated within this CRC are largely determined by the electronic structure and distribution of charges at the inorganic/organic interface. Holographic i ...

  • CRC 951/3: First-Principles Modelling of Ultrafast Charge Transfer at Photo-Excited TMDC/Organic Interfaces (SP B16)

    Cocchi, Caterina, Prof. Dr. (Theoretical Physics / Theory of Excitations in low-dimensional Systems)

    Duration of Project: 07/2019 - 06/2023

    Financer: DFG: Sonderforschungsbereich

    The central goal of this project is the investigation of the ultrafast dynamics of photo-excited charge carriers in hybrid systems formed by MoS2 or WS2 and rylene dyes, adopting first-principles methods based on real-time time-dependent density-func ...

  • CRC 951/3: HIOS Structure and Morphology Characterization (SP Z02)

    Koch, Christoph T., Prof. PhD (Experimental Physics / Structural Research and Electron Microscopy)

    Duration of Project: 07/2019 - 06/2023

    Financer: DFG: Sonderforschungsbereich

    This central project provides characterization services by various electron beam based techniques, obtaining information about atomic and electronic structure on hybrid inorganic/organic systems (HIOS) produced within the CRC. Using scientific equipm ...

  • CRC 951/3: Hybrid Inorganic/Organic Systems (HIOS) for Opto-Electronics

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

    Duration of Project: 07/2019 - 06/2023

    Financer: DFG: Sonderforschungsbereich

    The ability to precisely control the formation of heterostructures from different materials has revolutionized electronic and optical technologies during the past decades. However, tackling the increasing challenges faced by these key technologies re ...

  • CRC 951/3: Optical Excitations of TMDC/Dye Hybrids Under Mechanical Strain (SP A06)

    Kirstein, Stefan, PD Dr. (Experimental Physics / Physics of Macromolecules)

    Duration of Project: 07/2019 - 06/2023

    Financer: DFG: Sonderforschungsbereich

    The central goal of this project is the preparation and investigation of stable and efficient emitters, which are formed by incorporating single dye molecules into a transition metal dichalcogenide (TMDC) layer. The local deformations and associated ...

  • CRC 951/3: Structure and Electronic Properties of Conjugated Organic Molecules on Transition Metal Dichalcogenide Monolayers (SP A08)

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

    Duration of Project: 07/2019 - 06/2023

    Financer: DFG: Sonderforschungsbereich

    The goal is achieving a comprehensive understanding of the structure and electronic properties of hybrid inorganic/organic systems (HIOS) formed by conjugated organic molecules and transition metal dichalcogenide (TMDC) monolayers. The first research ...

  • CRC 951/3: Theory of Electro-Optic and Chiral Coupling in Plasmonically Enhanced HIOS (SP B10)

    Busch, Kurt, Prof. Dr. rer. nat. (Theoretical Physics / Theoretical Optics)

    Duration of Project: 07/2019 - 06/2023

    Financer: DFG: Sonderforschungsbereich

    The goal of this project is the development of a comprehensive theoretical framework for electrically driven plasmonic nano-gap structures with sandwiched hybrid inorganic/organic systems (HIOS) and for HIOS that are chirally coupled to plasmonic nan ...

  • CRC 951/3: Theory of Opto-Electronic Excitations and Excitation Dynamics at Hybrid Inorganic/Organic Interfaces (SP B11)

    Draxl, Claudia, Prof. Dr. Dr. h.c. (Theoretical Physics / Solid State Theory)

    Duration of Project: 07/2019 - 06/2023

    Financer: DFG: Sonderforschungsbereich

    We are aiming at an in-depth understanding of level alignment, electronic structure, optical excitations and excitation dynamics in hybrid materials, consisting of π-conjugated molecules and transition metal dichalcogenides (TMDCs). To reach these go ...

  • CRC 951 I: HIOS - Adjusting energy levels of hybrid inorganic/organic heterostructures (Project A8)

    Koch, Norbert, Prof. Dr. techn. (Collaborative Research Centre 555 'Complex Non-linear Processes')

    Duration of Project: 07/2011 - 06/2015

    Financer: DFG: Sonderforschungsbereich

    This project will provide fundamental understanding of the energy levels at HIOS interfaces comprising ZnO and wide-gap conjugated molecules, mainly using photoelectron spectroscopy and the Kelvin probe method. Furthermore, we target developing means ...

  • DFG-NSF-Materials World Network:: Spin phenomena in quasi-1D systems of narrow-gap semiconducters

    Fischer, Saskia, Prof. Dr. rer. nat. (New Materials)

    Duration of Project: 01/2011 - 10/2014

    Financer: DFG: Sachbeihilfe

    In den letzten zehn Jahren ist sehr intensiv Grundlagenforschung zu Spin-Effekten in Halbleitern und Halbleiternanostrukturen vorangetrieben worden, motiviert durch die Möglichkeit eine neue Ära in der Elektronik ("Spinelektronik") und Informationste ...

  • DFG Research Grant/1: Adsorption and Desorption Processes on Beta-Ga2O3 and In2O3 Surfaces Studied via Structural and Thermo-/Electrical Investigations

    Fischer, Saskia, Prof. Dr. rer. nat. (New Materials)

    Duration of Project: 12/2016 - 12/2020

    Financer: DFG: Eigene Stelle (Sachbeihilfe)

    The transparent semiconducting oxides beta-Ga2O3 and In2O3 represent a class of wide band-gap semiconductors which attract much attention in research and technology today. While used in the last decades in the form of polycrystalline or amorphous fil ...

  • DFG Research Grant/2: Adsorption and Desorption Processes on Beta-Ga2O3 and In2O3 Surfaces Studied via Structural and Thermo-/Electrical Investigations

    Fischer, Saskia, Prof. Dr. rer. nat. (New Materials)

    Duration of Project: 01/2017 - 12/2020

    Financer: DFG: Sachbeihilfe

    The transparent semiconducting oxides beta-Ga2O3 and In2O3 represent a class of wide band-gap semiconductors which attract much attention in research and technology today. While used in the last decades in the form of polycrystalline or amorphous fil ...

  • DFG Research Grant: Ballistic Heat Transport in Thin Oxide Layers

    Fischer, Saskia, Prof. Dr. rer. nat. (New Materials)

    Duration of Project: 12/2016 - 06/2020

    Financer: DFG: Sachbeihilfe

    In this project we will continue and finish of our investigations of the thermal conductivity in the transition region from diffusive to ballistic heat transport. Our goal is to identify unambiguously the regime of ballistic phonon transport. As a mo ...

  • 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

    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 ...

  • Diamond for infrared optoelectronics: time-resolved spectroscopy of excited acceptor states in diamond

    Hübers, Heinz-Wilhelm, Prof. Dr. rer. nat. habil. (Optical Systems)

    Duration of Project: 11/2017 - 10/2020

    Financer: DFG: Sachbeihilfe

    The project is devoted to the experimental investigation of excited states in boron-doped diamond crystals. The lifetimes of the excited states will be determined by mid-infrared pump-probe spectroscopy and time-resolving Fourier transform infrared a ...

  • Dr. Saeideh Edalati-Boostan – Theoretical and experimental study of optical properties of 2D material heterostructures

    Draxl, Claudia, Prof. Dr. Dr. h.c. (Theoretical Physics / Solid State Theory)

    Duration of Project: 07/2018 - 01/2021

    Financer: DFG: Eigene Stelle (Sachbeihilfe)

    As light-based technologies have become indispensable in our modern world, demand for high-performing novel optical materials is growing and optimization of optical devices with respect to energy efficiency and cost effectiveness receives much attent ...

  • Electronic properties of interfaces with conjugated polymers

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

    Duration of Project: 09/2010 - 08/2012

    Financer: DFG: Sachbeihilfe

    The project focuses on polymer interfaces that are of direct relevance for organic photovoltaic cells (OPVCs), their function and efficiency. Our goal to provide a complete understanding of the energy levels at all interfaces that occur in polymer/po ...

  • EU: Hybrid Organic/Inorganic Memory Elements for Integration of Electronic and Photonic Circuitry (HYMEC)

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

    Duration of Project: 10/2011 - 09/2014

    Financer: Europäische Union (EU)

    The objectives of the project HYMEC are to resolve fundamental issues of materials science and to realize new hybrid inorganic/organic devices constitutes by inorganic metal nanoparticles NPs embedded in matrices of conjugated organic materials, as n ...

  • EU: Integrated Self-Assembled SWITCHable Systems and Materials: Towards Responsive Organic Electronics – A Multi-Site Innovative Training Action (iSwitch)

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

    Duration of Project: 01/2015 - 12/2018

    Financer: Europäische Union (EU)

    iSwitch will offer top-level multi-disciplinary and supra-sectorial training to a pool of talented young researchers, involving contributions from different scientific and technological fields such as, supramolecular chemistry, materials, nanoscience ...

  • EU: Interface-Control for Organic Devices (ICONTROL)

    Koch, Norbert, Prof. Dr. techn. (Experimental Physics / Physics of Macromolecules)

    Duration of Project: 09/2006 - 08/2009

    Financer: Europäische Union (EU)

    The ICONTROL project relates to the field of organic (opto-) electronic devices, such as light emitting diodes, photovoltaic cells, field effect transistors, memory cells, sensors, and combinations thereof. We address the key components that determin ...

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