Add to ORKGThe ongoing development of interconnected and wearable small devices, which together make up the so-called Internet of Things, is driving a rising need for autonomous and on-site energy supplies. Heat, an abundant and often wasted energy source, can be harnessed through thermoelectric generators that can directly convert heat into electricity. Small devices, such as health-monitoring sensors, may be powered by the heat dissipated from the human body using flexible thermoelectric generators made of organic semiconductors, like conjugated polymers. This thesis discusses polythiophenes with oligoether side chains, which are a promising class of conjugated polymers for the design of flexible, easily processable and light-weight thermoelectric g...
The effect of molecular weight of a series of conjugated polymers (CPs) on the doping efficiency, el...
Publication status: PublishedA series of polythiophenes with varying side chain density was synthesi...
Organic thermoelectric (TE) materials can directly convert heat to electricity, and they are emergin...
This article is part of the Advanced Thermoelectric Materials and Devices special issue.Conjugated p...
Organic thermoelectric technology will enable lightweight, low-cost and flexible power generation mo...
A series of polythiophenes with varying side chain density was synthesized, and their electrical and...
The accelerating growth of the number of inter-connected small devices, which together make up the s...
The rapid development of conjugated polymeric materials has enabled the organic electronic and optoe...
The advancing development of inter-connected small devices, so-called Internet of Things is increasi...
The interplay between the nanostructure of a doped polythiophene with oligoether side chains and its...
Thermoelectric plastics are a class of polymer-based materials that combine the ability to directly ...
Organic thermoelectrics are attractive for the fabrication of flexible and cost-effective thermoelec...
According to different sources, from forty to sixty percent of the overall energy generated in the w...
We studied the effect of molecular weight of a series of conjugated polymers (CPs) on the doping eff...
Over the past several decades with increasing of global energy demand, thermoelectric materials have...
The effect of molecular weight of a series of conjugated polymers (CPs) on the doping efficiency, el...
Publication status: PublishedA series of polythiophenes with varying side chain density was synthesi...
Organic thermoelectric (TE) materials can directly convert heat to electricity, and they are emergin...
This article is part of the Advanced Thermoelectric Materials and Devices special issue.Conjugated p...
Organic thermoelectric technology will enable lightweight, low-cost and flexible power generation mo...
A series of polythiophenes with varying side chain density was synthesized, and their electrical and...
The accelerating growth of the number of inter-connected small devices, which together make up the s...
The rapid development of conjugated polymeric materials has enabled the organic electronic and optoe...
The advancing development of inter-connected small devices, so-called Internet of Things is increasi...
The interplay between the nanostructure of a doped polythiophene with oligoether side chains and its...
Thermoelectric plastics are a class of polymer-based materials that combine the ability to directly ...
Organic thermoelectrics are attractive for the fabrication of flexible and cost-effective thermoelec...
According to different sources, from forty to sixty percent of the overall energy generated in the w...
We studied the effect of molecular weight of a series of conjugated polymers (CPs) on the doping eff...
Over the past several decades with increasing of global energy demand, thermoelectric materials have...
The effect of molecular weight of a series of conjugated polymers (CPs) on the doping efficiency, el...
Publication status: PublishedA series of polythiophenes with varying side chain density was synthesi...
Organic thermoelectric (TE) materials can directly convert heat to electricity, and they are emergin...