Add to ORKGabstract: With the world's ever growing need for sustainable energy solutions, the field of thermoelectrics has seen rejuvenated interest. Specifically, modern advances in nanoscale technology have resulted in predictions that thermoelectric devices will soon become a viable waste heat recovery energy source, among other things. In order to achieve these predictions, however, key structure-property relationships must first be understood. Currently, the Thermal Energy and Nanomaterials Lab at Arizona State University is attempting to solve this problem. This project intends to aid the groups big picture goal by developing a robust and user friendly measurement platform which is capable of reporting charge carrier mobility, electrical conduct...
Thermoelectric power generation could be crucial in a sustainable energy future through waste heat e...
The worlds demand for energy is ever increasing. Likewise, the environmental impact of climate chang...
The figure-of-merit (Z) of a thermoelectric material is defined as Z = S{sup 2}/{rho}k, where S is t...
abstract: Nanostructured materials show signicant enhancement in the thermoelectric g- ure of merit...
International audienceIn this review we discuss considerations regarding the common techniques used ...
Thermoelectric properties are being explored as part of renewable energy which is vital in preservin...
Thermoelectric materials can convert heat directly into usable electrical energy. An important aim i...
Measuring the thermoelectric transport properties of a material is a prerequisite to determining its...
Thermoelectric materials are useful for a wide range of applications like waste heat removal, solid ...
Measurements of physical transport properties of thermoelectric materials are plagued by large uncer...
Comunicación presentada en el 2013 Materials Research Society Fall Meeting & Exhibit (MRS), celebrad...
The extension of thermoelectric generators to more general markets requires that the devices be affo...
For many applications, multiple material properties impact device performance and characterization o...
Thermoelectric (TE) materials have promising energy-related applications, including waste heat recov...
This chapter describes two novel measurement systems that were developed recently in order to meet t...
Thermoelectric power generation could be crucial in a sustainable energy future through waste heat e...
The worlds demand for energy is ever increasing. Likewise, the environmental impact of climate chang...
The figure-of-merit (Z) of a thermoelectric material is defined as Z = S{sup 2}/{rho}k, where S is t...
abstract: Nanostructured materials show signicant enhancement in the thermoelectric g- ure of merit...
International audienceIn this review we discuss considerations regarding the common techniques used ...
Thermoelectric properties are being explored as part of renewable energy which is vital in preservin...
Thermoelectric materials can convert heat directly into usable electrical energy. An important aim i...
Measuring the thermoelectric transport properties of a material is a prerequisite to determining its...
Thermoelectric materials are useful for a wide range of applications like waste heat removal, solid ...
Measurements of physical transport properties of thermoelectric materials are plagued by large uncer...
Comunicación presentada en el 2013 Materials Research Society Fall Meeting & Exhibit (MRS), celebrad...
The extension of thermoelectric generators to more general markets requires that the devices be affo...
For many applications, multiple material properties impact device performance and characterization o...
Thermoelectric (TE) materials have promising energy-related applications, including waste heat recov...
This chapter describes two novel measurement systems that were developed recently in order to meet t...
Thermoelectric power generation could be crucial in a sustainable energy future through waste heat e...
The worlds demand for energy is ever increasing. Likewise, the environmental impact of climate chang...
The figure-of-merit (Z) of a thermoelectric material is defined as Z = S{sup 2}/{rho}k, where S is t...