Rapid Printing of Pseudo-3D Printed SnSe Thermoelectric Generators Utilizing an Inorganic Binder

Howells, Geraint; Mehraban, Shahin; McGettrick, James D.; Lavery, Nicholas; Carnie, Matthew J.; Burton, Matthew R.

doi:10.1021/acsami.3c01209

Cited by 3 publications

(1 citation statement)

References 62 publications

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“…Although researchers have extensively explored the fabrication of state-of-the-art TE materials (e.g. Bi 2 Te 3 , PbTe, Cu 2 Se, and SnSe) through 3D printing [32,[42][43][44], this review specifically focuses on research related to Bi 2 Te 3 . Bi 2 Te 3 -based materials are widely regarded as the most efficient TE materials for applications under near-room-temperature conditions, and their TE properties for various compositions and structures are well established [45,46].…”

Section: Introductionmentioning

confidence: 99%

Recent progress in 3D printing of Bi₂Te₃-based thermoelectric materials and devices

Yang,

Han,

Son

2024

J. Phys. Energy

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With growing concerns about the depletion of fossil fuels and climate change, there is an urgent global demand for the development of sustainable and renewable energy sources. The thermoelectric technology, which converts waste heat into electricity, presents a unique opportunity to ensure a sustainable electric supply and enhance energy efficiency without incurring additional costs. Recently, the utilization of 3D printing technology for fabricating thermoelectric materials has attracted tremendous interest because of the simplicity of design of power generators and the potential for economical manufacturing. This study focuses on research related to Bi2Te3 thermoelectric materials produced using 3D printing, and it highlights the fundamental principles, advantages, challenges, and recent remarkable advancements associated with this manufacturing approach. Furthermore, we explored various device applications, including shape-conformable wearable, and micro devices with printed thermoelectric materials. Finally, we discuss the promising research directions and prospects for industrialization in 3D-printed thermoelectric materials.

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Section: Introductionmentioning

confidence: 99%

Recent progress in 3D printing of Bi₂Te₃-based thermoelectric materials and devices

Yang,

Han,

Son

2024

J. Phys. Energy

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Advances in flexible inorganic thermoelectrics

Shi,

Cao,

Chen

et al. 2023

EcoEnergy

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Solid‐state bismuth telluride‐based thermoelectric devices enable the generation of electricity from temperature differences and have been commercially applied in various fields. However, in many scenarios, the surface of the heat source is not flat. Therefore, it is crucial to develop flexible thermoelectric materials and devices to efficiently utilize heat sources and expand their applications. Compared with organic thermoelectric materials and devices, inorganic flexible thermoelectric materials and devices have much higher thermoelectric performance and stability. Considering the rapid development in this research field, we carefully summarize the design principles, structures, and thermoelectric properties of inorganic flexible materials and their devices reported in the recent 3 years, including sulfides, selenides, tellurides, and composite materials designed based on these inorganics. The structural designs of flexible thermoelectric devices based on micro‐sized bulk materials are also carefully summarized. Additionally, we overview the mechanical stability and methods for reducing internal resistance for designs of inorganic flexible thermoelectric devices. In the end, we provide outlooks on future research directions for inorganic flexible thermoelectric materials and devices. This review will help guide thermoelectric researchers, beginners, and students.

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A Review of Thermoelectric Generators in Automobile Waste Heat Recovery Systems for Improving Energy Utilization

Bhakta,

Kundu

2024

Energies

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With the progress of modern times, automobile technology has become integral to human society. At the same time, the need for energy has also grown. In parallel, the total amount of waste energy that is liberated from different parts of the automobile has also increased. In this ever-increasing energy demand pool, future energy shortages and environmental pollution are the primary concerns. A thermoelectric generator (TEG) is a promising technology that utilizes waste heat and converts it into useful electrical power, which can reduce fuel consumption to a significant extent. This paper comprehensively reviews automobile thermoelectric generators and their technological advancements. The review begins by classifying different waste heat technologies and discussing the superiority of TEGs over the other existing technologies. Then, we demonstrate the basic concept of and advancements in new high-performance TEG materials. Following that, improvements and associated challenges with various aspects, such as the heat exchanger design, including metal foam, extended body, intermediate fluid and heat pipe, leg geometry design, segmentation, and multi-staging, are discussed extensively. Finally, the present study highlights research guidelines for TEG design, research gaps, and future directions for innovative works in automobile TEG technologies.

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Rapid Printing of Pseudo-3D Printed SnSe Thermoelectric Generators Utilizing an Inorganic Binder

Cited by 3 publications

References 62 publications

Recent progress in 3D printing of Bi₂Te₃-based thermoelectric materials and devices

Recent progress in 3D printing of Bi₂Te₃-based thermoelectric materials and devices

Advances in flexible inorganic thermoelectrics

A Review of Thermoelectric Generators in Automobile Waste Heat Recovery Systems for Improving Energy Utilization

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Rapid Printing of Pseudo-3D Printed SnSe Thermoelectric Generators Utilizing an Inorganic Binder

Cited by 3 publications

References 62 publications

Recent progress in 3D printing of Bi2Te3-based thermoelectric materials and devices

Recent progress in 3D printing of Bi2Te3-based thermoelectric materials and devices

Advances in flexible inorganic thermoelectrics

A Review of Thermoelectric Generators in Automobile Waste Heat Recovery Systems for Improving Energy Utilization

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Product

Resources

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Recent progress in 3D printing of Bi₂Te₃-based thermoelectric materials and devices

Recent progress in 3D printing of Bi₂Te₃-based thermoelectric materials and devices