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Title: Design of Lead Telluride Based Thermoelectric Materials through Incorporation of Lead Sulfide Inclusions or Ligand Stripping of Nanosized Building Blocks

Journal Article · · Journal of Physical Chemistry. C
DOI:https://doi.org/10.1021/jp5127046· OSTI ID:1370321
 [1];  [2];  [1];  [2];  [1]
  1. Wayne State Univ., Detroit, MI (United States)
  2. Michigan State Univ., East Lansing, MI (United States)
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Design of thermoelectric materials focuses on the optimization of several unfavorably coupled factors: electrical conductivity, Seebeck coefficient, and thermal conductivity. Recent work in thermoelectrics has focused on decreasing lattice thermal conductivity by nanostructuring thermoelectric materials, while recent work in photovoltaics has demonstrated ligand stripping as a means to increased electron mobility in thin films of nanoparticles. In the present work, these two features are combined. A multigram scale synthesis of dispersible, lead telluride nanocrystals (25–50 nm) is developed using hot-injection methods in common organic solvents. These nanocrystals (NCs) are ligand stripped with sulfide (PbTe-S) or iodide (PbTe-I) sources to result in p-type or n-type materials with large Seebeck coefficients at room temperature of 520 or –540 μV·K–1, respectively. Sequential stripping with sulfide and then iodide (PbTe-SI) resulted in a small Seebeck due to counter doping. PbTe-S and PbTe-SI are found to generate nanostructured composites by growth of lead sulfide nanocrystals (~50–60 nm) in situ upon annealing. However, the electrical conductivities are low (<1 S·cm–1) due to excess doping during the ligand stripping. Intentional formation of a nanocomposite (PbTe–PbS) is achieved by combining PbTe NCs with 4–6 nm diameter lead sulfide particles via mixing by incipient wetness with a target of 8 mol % lead sulfide. The resulting nanocomposite is n-type with a Seebeck coefficient of –160 μV·K–1 and an electrical conductivity of 42 S·cm–1 at room temperature. The lattice thermal conductivities of all materials at room temperature are substantially lower than those of bulk lead telluride (2.0 W m–1·K–1). However, thermoelectric figure of merit (ZT) values are low for all samples (maximum ZT = 0.03 for PbTe–PbS), attributed primarily to the low electrical conductivities. As a result, this work underscores the importance of developing new methods for augmenting electrical conductivity if nanoparticle assemblies are to be practically employed in thermoelectrics.

Research Organization:
Energy Frontier Research Centers (EFRC) (United States). Revolutionary Materials for Solid State Energy Conversion (RMSSEC)
Sponsoring Organization:
USDOE Office of Science (SC), Basic Energy Sciences (BES)
Grant/Contract Number:
SC0001054
OSTI ID:
1370321
Journal Information:
Journal of Physical Chemistry. C, Vol. 119, Issue 9; Related Information: RMSSEC partners with Michigan State University (lead); University of California, Los Angeles; University of Michigan; Northwestern University; Oak Ridge National Laboratory; Ohio State University; Wayne State University; ISSN 1932-7447
Publisher:
American Chemical SocietyCopyright Statement
Country of Publication:
United States
Language:
English
Citation Metrics:
Cited by: 11 works
Citation information provided by
Web of Science

References (27)

Recent Developments in Semiconductor Thermoelectric Physics and Materials journal August 2011
High thermoelectric performance BiSbTe alloy with unique low-dimensional structure journal June 2009
Thermoelectric Properties of Lead Chalcogenide Core–Shell Nanostructures journal October 2011
Low thermal conductivity and improved figure of merit in fine-grained binary PbTe thermoelectric alloys journal December 2008
Preparation of sintered degenerate n -type PbTe with a small grain size and its thermoelectric properties journal September 2002
The effect of microstructure and metal-oxide barriers on carrier transport in top-down processed, low density nanograined n-type PbTe journal January 2014
PbTe nanocomposites synthesized from PbTe nanocrystals journal May 2007
Theory of enhancement of thermoelectric properties of materials with nanoinclusions journal June 2008
Enhanced Seebeck coefficient through energy-barrier scattering in PbTe nanocomposites journal March 2009
The Effects of the Size and the Doping Concentration on the Power Factor of n-type Lead Telluride Nanocrystals for Thermoelectric Energy Conversion journal February 2014
Synergism in binary nanocrystal superlattices leads to enhanced p-type conductivity in self-assembled PbTe/Ag2Te thin films journal January 2007
Flexible Nanocrystal-Coated Glass Fibers for High-Performance Thermoelectric Energy Harvesting journal January 2012
Surfactant Ligand Removal and Rational Fabrication of Inorganically Connected Quantum Dots journal December 2011
All-Inorganic Colloidal Quantum Dot Photovoltaics Employing Solution-Phase Halide Passivation journal September 2012
PbSe Nanocrystal Solids for n- and p-Channel Thin Film Field-Effect Transistors journal October 2005
PbS/PbSe Hollow Spheres: Solvothermal Synthesis, Growth Mechanism, and Thermoelectric Transport Property journal July 2012
Spinodal Decomposition and Nucleation and Growth as a Means to Bulk Nanostructured Thermoelectrics:  Enhanced Performance in Pb 1- x Sn x Te−PbS journal August 2007
Synthesis and Characterization of Telluride Aerogels: Effect of Gelation on Thermoelectric Performance of Bi 2 Te 3 and Bi 2– x Sb x Te 3 Nanostructures journal August 2012
Toward nanostructured thermoelectrics: synthesis and characterization of lead telluride gels and aerogels journal January 2011
Colloidal PbS Nanocrystals with Size-Tunable Near-Infrared Emission: Observation of Post-Synthesis Self-Narrowing of the Particle Size Distribution journal November 2003
Synthesis of 3-D Hierarchical Dendrites of Lead Chalcogenides in Large Scale via Microwave-Assistant Method journal February 2007
One-step microwave-solvothermal rapid synthesis of Sb doped PbTe/Ag2Te core/shell composite nanocubes journal June 2012
Thermopower enhancement in lead telluride nanostructures journal September 2004
The Hidden Role of Acetate in the PbSe Nanocrystal Synthesis journal May 2006
Chemical Mechanisms of Semiconductor Nanocrystal Synthesis journal March 2013
A Simple Chemical Approach for PbTe Nanowires with Enhanced Thermoelectric Properties journal October 2008
Structural Characterization and Thermoelectric Transport Properties of Uniform Single-Crystalline Lead Telluride Nanowires journal July 2008

Cited By (2)

Chlorine-Enabled Electron Doping in Solution-Synthesized SnSe Thermoelectric Nanomaterials journal February 2017
3D assembly of preformed colloidal nanoparticles into gels and aerogels: function-led design journal January 2017

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Related Subjects

37 INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY
Sulfides
Anions
Ligands
Nanoparticles
Electrical conductivity