Add to ORKGAccording to the Lawrence Livermore National Laboratory, nearly 70% of energy produced in the United States was wasted in the form of heat in 2018 [3]. With this ongoing energy crisis and increasing energy demands, there lies an urgent need for improved energy harnessing materials. Thermoelectric (TE) materials can convert a temperature gradient into an electric potential or vice versa. The efficiency of these materials is characterized using a dimensionless figure of merit (ZT). In order for these materials to become economically feasible, the ZT values need to be significantly increased from their current standing. Nanostructuring of these materials is a plausible option that can significantly increase ZT. In this study, we seek to ...
Nanostructured materials can be used to improve the performance of thermoelectric materials. The the...
Thermoelectric materials could play an increasing role for the efficient use of energy resources and...
Nanocomposites are promising candidates for the next generation of thermoelectric materials since th...
Progresses in thermoelectric (TE) materials will contribute to solving the world’s demands for energ...
Thermoelectric power generation represents a class of energy conversion technology, which has been u...
The concept of using self-assembled and force- engineered nanostructures to enhance the thermoel...
Energy transport in nanostructures differs significantly from macrostructures because of classical a...
Thermoelectrics (TE) are a class of materials that convert heat directly into electricity. If made s...
Within a materials-by-design paradigm we make use of large-scale atomistic simulations to tailor th...
Direct conversion of heat into electricity through advanced thermoelectric (TE) materials has been o...
Thermoelectrics are solid-state materials with the ability to directly convert heat to electricity a...
Abstract: The field of thermoelectric materials has undergone a revolutionary transformation over th...
Direct conversion of thermal energy to electricity by thermoelectric (TE) devices may play a key rol...
In the past decades, as an emission-free technique capable of realizing direct energy conversion bet...
Thermoelectric (TE) materials can be used in the conversion of heat to electricity and vice versa, w...
Nanostructured materials can be used to improve the performance of thermoelectric materials. The the...
Thermoelectric materials could play an increasing role for the efficient use of energy resources and...
Nanocomposites are promising candidates for the next generation of thermoelectric materials since th...
Progresses in thermoelectric (TE) materials will contribute to solving the world’s demands for energ...
Thermoelectric power generation represents a class of energy conversion technology, which has been u...
The concept of using self-assembled and force- engineered nanostructures to enhance the thermoel...
Energy transport in nanostructures differs significantly from macrostructures because of classical a...
Thermoelectrics (TE) are a class of materials that convert heat directly into electricity. If made s...
Within a materials-by-design paradigm we make use of large-scale atomistic simulations to tailor th...
Direct conversion of heat into electricity through advanced thermoelectric (TE) materials has been o...
Thermoelectrics are solid-state materials with the ability to directly convert heat to electricity a...
Abstract: The field of thermoelectric materials has undergone a revolutionary transformation over th...
Direct conversion of thermal energy to electricity by thermoelectric (TE) devices may play a key rol...
In the past decades, as an emission-free technique capable of realizing direct energy conversion bet...
Thermoelectric (TE) materials can be used in the conversion of heat to electricity and vice versa, w...
Nanostructured materials can be used to improve the performance of thermoelectric materials. The the...
Thermoelectric materials could play an increasing role for the efficient use of energy resources and...
Nanocomposites are promising candidates for the next generation of thermoelectric materials since th...