Training
Our training program provides an excellent education of doctoral students to meet the requirements of highly qualified and multidisciplinary professionals in academia and industry. Our program comprises scientific and key skills training. The curriculum will be initiated in the three-months orientation phase, and will continue over the three-years doctoral phase.
Supervison
Theoretical approaches play an important role for the molecular design of organic electronic devices. Considering the scope of TIDE, we have distinguished three areas. In Templating process, we start with the clean surface of the template, followed by a subsequent filling of this surface with Molecular Building Blocks. In Bulk properties, we address thin-film properties related to variations in the nano-morphology, taking into account the possible dimerization of pi-conjugated molecules, and the formation of H- or J-aggregates. In Charge carrier and energy transfer dynamics, we want to compute steady-state charge and excitonic transport as a function of the order parameter.
Beispiel-Subheadline
Squaraines are small molecular quadrupolar D−A−D chromophores which makes them suitable candidates for our templating approach. We will decorate those with different chiral endgroups and use them as absorber materials for polarization-sensitive OSCs. In addition to the anilino-squaraines, indolenine-squaraines present a second group of very promising candidates as these are known to possess aggregation induced (enhanced) emission activity. Thus, stereochemically defined supramolecular aggregates of enantiomerically pure compounds could not only enhance or induce circular dichroism, but might also lead to circularly polarized luminescence (CPL). Both properties can be used as a very sensitive probe to determine the degree of order in templated thin films grown on graphene or GNR. This is especially true for the growth on chiral graphene nanoribbons, which will be prepared in project B1.
Beispiel-Subheadline
Squaraines are small molecular quadrupolar D−A−D chromophores which makes them suitable candidates for our templating approach. We will decorate those with different chiral endgroups and use them as absorber materials for polarization-sensitive OSCs. In addition to the anilino-squaraines, indolenine-squaraines present a second group of very promising candidates as these are known to possess aggregation induced (enhanced) emission activity. Thus, stereochemically defined supramolecular aggregates of enantiomerically pure compounds could not only enhance or induce circular dichroism, but might also lead to circularly polarized luminescence (CPL). Both properties can be used as a very sensitive probe to determine the degree of order in templated thin films grown on graphene or GNR. This is especially true for the growth on chiral graphene nanoribbons, which will be prepared in project B1.
Beispiel-Subheadline
Squaraines are small molecular quadrupolar D−A−D chromophores which makes them suitable candidates for our templating approach. We will decorate those with different chiral endgroups and use them as absorber materials for polarization-sensitive OSCs. In addition to the anilino-squaraines, indolenine-squaraines present a second group of very promising candidates as these are known to possess aggregation induced (enhanced) emission activity. Thus, stereochemically defined supramolecular aggregates of enantiomerically pure compounds could not only enhance or induce circular dichroism, but might also lead to circularly polarized luminescence (CPL). Both properties can be used as a very sensitive probe to determine the degree of order in templated thin films grown on graphene or GNR. This is especially true for the growth on chiral graphene nanoribbons, which will be prepared in project B1.
Scientific training
Theoretical approaches play an important role for the molecular design of organic electronic devices. Considering the scope of TIDE, we have distinguished three areas. In Templating process, we start with the clean surface of the template, followed by a subsequent filling of this surface with Molecular Building Blocks. In Bulk properties, we address thin-film properties related to variations in the nano-morphology, taking into account the possible dimerization of pi-conjugated molecules, and the formation of H- or J-aggregates. In Charge carrier and energy transfer dynamics, we want to compute steady-state charge and excitonic transport as a function of the order parameter.
Beispiel-Subheadline
Squaraines are small molecular quadrupolar D−A−D chromophores which makes them suitable candidates for our templating approach. We will decorate those with different chiral endgroups and use them as absorber materials for polarization-sensitive OSCs. In addition to the anilino-squaraines, indolenine-squaraines present a second group of very promising candidates as these are known to possess aggregation induced (enhanced) emission activity. Thus, stereochemically defined supramolecular aggregates of enantiomerically pure compounds could not only enhance or induce circular dichroism, but might also lead to circularly polarized luminescence (CPL). Both properties can be used as a very sensitive probe to determine the degree of order in templated thin films grown on graphene or GNR. This is especially true for the growth on chiral graphene nanoribbons, which will be prepared in project B1.
Beispiel-Subheadline
Squaraines are small molecular quadrupolar D−A−D chromophores which makes them suitable candidates for our templating approach. We will decorate those with different chiral endgroups and use them as absorber materials for polarization-sensitive OSCs. In addition to the anilino-squaraines, indolenine-squaraines present a second group of very promising candidates as these are known to possess aggregation induced (enhanced) emission activity. Thus, stereochemically defined supramolecular aggregates of enantiomerically pure compounds could not only enhance or induce circular dichroism, but might also lead to circularly polarized luminescence (CPL). Both properties can be used as a very sensitive probe to determine the degree of order in templated thin films grown on graphene or GNR. This is especially true for the growth on chiral graphene nanoribbons, which will be prepared in project B1.
Beispiel-Subheadline
Squaraines are small molecular quadrupolar D−A−D chromophores which makes them suitable candidates for our templating approach. We will decorate those with different chiral endgroups and use them as absorber materials for polarization-sensitive OSCs. In addition to the anilino-squaraines, indolenine-squaraines present a second group of very promising candidates as these are known to possess aggregation induced (enhanced) emission activity. Thus, stereochemically defined supramolecular aggregates of enantiomerically pure compounds could not only enhance or induce circular dichroism, but might also lead to circularly polarized luminescence (CPL). Both properties can be used as a very sensitive probe to determine the degree of order in templated thin films grown on graphene or GNR. This is especially true for the growth on chiral graphene nanoribbons, which will be prepared in project B1.
Beispiel-Subheadline
Squaraines are small molecular quadrupolar D−A−D chromophores which makes them suitable candidates for our templating approach. We will decorate those with different chiral endgroups and use them as absorber materials for polarization-sensitive OSCs. In addition to the anilino-squaraines, indolenine-squaraines present a second group of very promising candidates as these are known to possess aggregation induced (enhanced) emission activity. Thus, stereochemically defined supramolecular aggregates of enantiomerically pure compounds could not only enhance or induce circular dichroism, but might also lead to circularly polarized luminescence (CPL). Both properties can be used as a very sensitive probe to determine the degree of order in templated thin films grown on graphene or GNR. This is especially true for the growth on chiral graphene nanoribbons, which will be prepared in project B1.
Beispiel-Subheadline
Squaraines are small molecular quadrupolar D−A−D chromophores which makes them suitable candidates for our templating approach. We will decorate those with different chiral endgroups and use them as absorber materials for polarization-sensitive OSCs. In addition to the anilino-squaraines, indolenine-squaraines present a second group of very promising candidates as these are known to possess aggregation induced (enhanced) emission activity. Thus, stereochemically defined supramolecular aggregates of enantiomerically pure compounds could not only enhance or induce circular dichroism, but might also lead to circularly polarized luminescence (CPL). Both properties can be used as a very sensitive probe to determine the degree of order in templated thin films grown on graphene or GNR. This is especially true for the growth on chiral graphene nanoribbons, which will be prepared in project B1.
Beispiel-Subheadline
Squaraines are small molecular quadrupolar D−A−D chromophores which makes them suitable candidates for our templating approach. We will decorate those with different chiral endgroups and use them as absorber materials for polarization-sensitive OSCs. In addition to the anilino-squaraines, indolenine-squaraines present a second group of very promising candidates as these are known to possess aggregation induced (enhanced) emission activity. Thus, stereochemically defined supramolecular aggregates of enantiomerically pure compounds could not only enhance or induce circular dichroism, but might also lead to circularly polarized luminescence (CPL). Both properties can be used as a very sensitive probe to determine the degree of order in templated thin films grown on graphene or GNR. This is especially true for the growth on chiral graphene nanoribbons, which will be prepared in project B1.
Beispiel-Subheadline
Squaraines are small molecular quadrupolar D−A−D chromophores which makes them suitable candidates for our templating approach. We will decorate those with different chiral endgroups and use them as absorber materials for polarization-sensitive OSCs. In addition to the anilino-squaraines, indolenine-squaraines present a second group of very promising candidates as these are known to possess aggregation induced (enhanced) emission activity. Thus, stereochemically defined supramolecular aggregates of enantiomerically pure compounds could not only enhance or induce circular dichroism, but might also lead to circularly polarized luminescence (CPL). Both properties can be used as a very sensitive probe to determine the degree of order in templated thin films grown on graphene or GNR. This is especially true for the growth on chiral graphene nanoribbons, which will be prepared in project B1.
Key skills training
Theoretical approaches play an important role for the molecular design of organic electronic devices. Considering the scope of TIDE, we have distinguished three areas. In Templating process, we start with the clean surface of the template, followed by a subsequent filling of this surface with Molecular Building Blocks. In Bulk properties, we address thin-film properties related to variations in the nano-morphology, taking into account the possible dimerization of pi-conjugated molecules, and the formation of H- or J-aggregates. In Charge carrier and energy transfer dynamics, we want to compute steady-state charge and excitonic transport as a function of the order parameter.
Beispiel-Subheadline
Squaraines are small molecular quadrupolar D−A−D chromophores which makes them suitable candidates for our templating approach. We will decorate those with different chiral endgroups and use them as absorber materials for polarization-sensitive OSCs. In addition to the anilino-squaraines, indolenine-squaraines present a second group of very promising candidates as these are known to possess aggregation induced (enhanced) emission activity. Thus, stereochemically defined supramolecular aggregates of enantiomerically pure compounds could not only enhance or induce circular dichroism, but might also lead to circularly polarized luminescence (CPL). Both properties can be used as a very sensitive probe to determine the degree of order in templated thin films grown on graphene or GNR. This is especially true for the growth on chiral graphene nanoribbons, which will be prepared in project B1.
Beispiel-Subheadline
Squaraines are small molecular quadrupolar D−A−D chromophores which makes them suitable candidates for our templating approach. We will decorate those with different chiral endgroups and use them as absorber materials for polarization-sensitive OSCs. In addition to the anilino-squaraines, indolenine-squaraines present a second group of very promising candidates as these are known to possess aggregation induced (enhanced) emission activity. Thus, stereochemically defined supramolecular aggregates of enantiomerically pure compounds could not only enhance or induce circular dichroism, but might also lead to circularly polarized luminescence (CPL). Both properties can be used as a very sensitive probe to determine the degree of order in templated thin films grown on graphene or GNR. This is especially true for the growth on chiral graphene nanoribbons, which will be prepared in project B1.
Beispiel-Subheadline
Squaraines are small molecular quadrupolar D−A−D chromophores which makes them suitable candidates for our templating approach. We will decorate those with different chiral endgroups and use them as absorber materials for polarization-sensitive OSCs. In addition to the anilino-squaraines, indolenine-squaraines present a second group of very promising candidates as these are known to possess aggregation induced (enhanced) emission activity. Thus, stereochemically defined supramolecular aggregates of enantiomerically pure compounds could not only enhance or induce circular dichroism, but might also lead to circularly polarized luminescence (CPL). Both properties can be used as a very sensitive probe to determine the degree of order in templated thin films grown on graphene or GNR. This is especially true for the growth on chiral graphene nanoribbons, which will be prepared in project B1.
Promotion of female scientists
Theoretical approaches play an important role for the molecular design of organic electronic devices. Considering the scope of TIDE, we have distinguished three areas. In Templating process, we start with the clean surface of the template, followed by a subsequent filling of this surface with Molecular Building Blocks. In Bulk properties, we address thin-film properties related to variations in the nano-morphology, taking into account the possible dimerization of pi-conjugated molecules, and the formation of H- or J-aggregates. In Charge carrier and energy transfer dynamics, we want to compute steady-state charge and excitonic transport as a function of the order parameter.
Beispiel-Subheadline
Squaraines are small molecular quadrupolar D−A−D chromophores which makes them suitable candidates for our templating approach. We will decorate those with different chiral endgroups and use them as absorber materials for polarization-sensitive OSCs. In addition to the anilino-squaraines, indolenine-squaraines present a second group of very promising candidates as these are known to possess aggregation induced (enhanced) emission activity. Thus, stereochemically defined supramolecular aggregates of enantiomerically pure compounds could not only enhance or induce circular dichroism, but might also lead to circularly polarized luminescence (CPL). Both properties can be used as a very sensitive probe to determine the degree of order in templated thin films grown on graphene or GNR. This is especially true for the growth on chiral graphene nanoribbons, which will be prepared in project B1.
Beispiel-Subheadline
Squaraines are small molecular quadrupolar D−A−D chromophores which makes them suitable candidates for our templating approach. We will decorate those with different chiral endgroups and use them as absorber materials for polarization-sensitive OSCs. In addition to the anilino-squaraines, indolenine-squaraines present a second group of very promising candidates as these are known to possess aggregation induced (enhanced) emission activity. Thus, stereochemically defined supramolecular aggregates of enantiomerically pure compounds could not only enhance or induce circular dichroism, but might also lead to circularly polarized luminescence (CPL). Both properties can be used as a very sensitive probe to determine the degree of order in templated thin films grown on graphene or GNR. This is especially true for the growth on chiral graphene nanoribbons, which will be prepared in project B1.
Beispiel-Subheadline
Squaraines are small molecular quadrupolar D−A−D chromophores which makes them suitable candidates for our templating approach. We will decorate those with different chiral endgroups and use them as absorber materials for polarization-sensitive OSCs. In addition to the anilino-squaraines, indolenine-squaraines present a second group of very promising candidates as these are known to possess aggregation induced (enhanced) emission activity. Thus, stereochemically defined supramolecular aggregates of enantiomerically pure compounds could not only enhance or induce circular dichroism, but might also lead to circularly polarized luminescence (CPL). Both properties can be used as a very sensitive probe to determine the degree of order in templated thin films grown on graphene or GNR. This is especially true for the growth on chiral graphene nanoribbons, which will be prepared in project B1.
University offers
Theoretical approaches play an important role for the molecular design of organic electronic devices. Considering the scope of TIDE, we have distinguished three areas. In Templating process, we start with the clean surface of the template, followed by a subsequent filling of this surface with Molecular Building Blocks. In Bulk properties, we address thin-film properties related to variations in the nano-morphology, taking into account the possible dimerization of pi-conjugated molecules, and the formation of H- or J-aggregates. In Charge carrier and energy transfer dynamics, we want to compute steady-state charge and excitonic transport as a function of the order parameter.