Exploring packaging strategies of nano-embedded thermoelectric generators

Exploring packaging strategies of nano-embedded thermoelectric generators

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Embedding nanostructures within a bulk matrix is an important practical approach towards the electronic engineering of high performance thermoelectric systems.For power generation applications, it ideally combines the efficiency benefit offered by low dimensional systems along with the high power output advantage offered by bulk systems.In this work, we uncover a few crucial details about how to embed nanowires and nanoflakes in a bulk matrix so that an overall advantage over pure bulk may be achieved.

First and foremost, we point out that a performance degradation with respect to bulk is inevitable as the nanostructure Airsoft Accessories transitions to a multi moded one.It is then shown that a nano embedded system of suitable cross-section offers a power density advantage over a wide range of efficiencies at higher packing fractions, and this range gradually narrows down to the high efficiency regime, as the packing fraction is reduced.Finally, we introduce a metric - the advantage factor, to elucidate quantitatively, the enhancement in the power density offered via nano-embedding at a given efficiency.

In the end, we explore the maximum effective Surge Suppressors width of nano-embedding which serves as a reference in designing generators in the efficiency range of interest.