Search Menu
DOE PAGES title logo U.S. Department of Energy
Office of Scientific and Technical Information
Search Scholarly Publications

Title: Nano‐ and Micro‐Structures Formed during Laser Processing of Selenium Doped Bismuth Telluride

Journal Article · · Advanced Materials Interfaces
ORCiD logo [1]; ORCiD logo [2];  [3];  [2]; ORCiD logo [1]
  1. The George Washington University, Department of Mechanical and Aerospace Engineering 800 22nd St. NW Suite 3000 Washington DC 20052 USA
  2. University of South Florida, Department of Physics 4202 East Fowler Avenue Tampa FL 33620 USA
  3. US Naval Research Laboratory, Materials Science Division Washington DC 20375 USA
+ Show Author Affiliations

Abstract Laser processing of thermoelectric materials provides an avenue to influence the nano‐ and micro‐structure of the material and enable additive manufacturing processes that facilitate freeform device shapes, a capability that is lacking in thermoelectric materials processing. This paper describes the multiscale structures formed in selenium‐doped bismuth telluride, an n‐type thermoelectric material, from laser‐induced rapid melting and solidification. Macroscale samples are fabricated in a layer‐by‐layer technique using laser powder bed fusion (also known as selective laser melting). Laser processing results in highly textured columnar grains oriented in the build direction, nanoscale inclusions, and a shift in the primary charge carriers. Sparse oxide inclusions and tellurium segregation shift the material to p‐type behavior with a Seebeck coefficient that peaks at 143 µV K –1 at 95 °C. With an average relative density of 74%, fabricated parts have multiscale porosity and microscale cracking that likely resulted from low powder layer packing density and processing parameters near the transition threshold between conduction and keyhole mode processing. These results provide insights regarding the pathways for influencing carrier transport in thermoelectric materials via laser melting‐induced nanoscale structuring and the laser processing parameters required to achieve effective powder consolidation and hierarchical structuring in thermoelectric parts.

Sponsoring Organization:
USDOE
Grant/Contract Number:
NONE; NA0003858
OSTI ID:
1805066
Journal Information:
Advanced Materials Interfaces, Journal Name: Advanced Materials Interfaces Journal Issue: 15 Vol. 8; ISSN 2196-7350
Publisher:
Wiley Blackwell (John Wiley & Sons)Copyright Statement
Country of Publication:
Germany
Language:
English

References (31)

Grain Boundary Engineering for Achieving High Thermoelectric Performance in n-Type Skutterudites journal February 2017
Microstructural porosity in additive manufacturing: The formation and detection of pores in metal parts fabricated by powder bed fusion journal June 2019
Preparation of n-type Bi 2 Te 3 thermoelectric materials by non-contact dispenser printing combined with selective laser melting : Preparation of n-type Bi2Te3 thermoelectric materials journal May 2017
Thermoelectrics book January 2001
A Study on the Laser Spatter and the Oxidation Reactions During Selective Laser Melting of 316L Stainless Steel, Al-Si10-Mg, and Ti-6Al-4V journal April 2015
Solidification structures during laser treatment journal March 1990
Characterization of Microstructure in Additively Manufactured 316L using Automated Serial Sectioning journal June 2020
Influences of energy density on microstructure and consolidation of selective laser melted bismuth telluride thermoelectric powder journal January 2017
Processing parameters in laser powder bed fusion metal additive manufacturing journal August 2020
Rapid processing and assembly of semiconductor thermoelectric materials for energy conversion devices journal December 2016
Thermoelectric Higher Manganese Silicide: Synthetized, sintered and shaped simultaneously by selective laser sintering/Melting additive manufacturing technique journal March 2018
Thermoelectric generators: Linking material properties and systems engineering for waste heat recovery applications journal December 2014
High-performance bulk thermoelectrics with all-scale hierarchical architectures journal September 2012
Additively manufactured hierarchical stainless steels with high strength and ductility journal October 2017
Dislocation strain as the mechanism of phonon scattering at grain boundaries journal January 2016
Thermoelectric Bi 2 Te 3−x Se x alloys for efficient thermal to electrical energy conversion journal January 2018
3D Printing of highly textured bulk thermoelectric materials: mechanically robust BiSbTe alloys with superior performance journal January 2019
Review of selective laser melting: Materials and applications journal December 2015
The impact of thermoelectric leg geometries on thermal resistance and power output journal September 2019
Mechanism of keyhole formation and stability in stationary laser welding journal June 2002
Heat transfer and fluid flow during keyhole mode laser welding of tantalum, Ti–6Al–4V, 304L stainless steel and vanadium journal August 2007
On atomic mechanisms governing the oxidation of Bi 2 Te 3 journal November 2017
Physical processes in fusion welding journal January 1995
The effect of different build orientations on the consolidation, tensile and fracture toughness properties of direct metal laser sintering Ti-6Al-4V journal March 2018
High-Thermoelectric Performance of Nanostructured Bismuth Antimony Telluride Bulk Alloys journal May 2008
Cooling, Heating, Generating Power, and Recovering Waste Heat with Thermoelectric Systems journal September 2008
Keyhole threshold and morphology in laser melting revealed by ultrahigh-speed x-ray imaging journal February 2019
Solid State Refrigerator for Microchips journal August 2011
Thermoelectric Clathrates journal January 2001
Laser additive manufacturing of powdered bismuth telluride journal November 2018
Control of Porosity in Parts Produced by a Direct Laser Melting Process journal December 2018

Similar Records

Related Subjects