Gold Catalyst-Assisted Metal Organic Chemical Vapor Deposition of Bi-Te-Ni-Cu-Au Complex Thermoelectric Materials on Anodic Aluminum Oxide Nanoporous Template

Abstract: Complex materials have unique thermal and electron transport properties. In this work, a novel catalyst-assisted metal organic chemical vapor deposition approach was employed to make BiTe -Ni-Cu-Au complex materials on an anodic aluminum oxide nanoporous substrate. Nickel acetate, copper nitrate, bismuth acetate, and tellurium (IV) chloride dissolved in N,N-dimethylformamide (DMF) were used as the metal sources for Ni, Bi, Cu, and Te, respectively. Hydrogen was used as the carrier gas. The anodic aluminum oxid… Show more

“…Anodic aluminum oxide (AAO) films containing self-ordered nanoscale pores have been extensively studied, as they can be served as a versatile template in various applications, including nanostructure synthesis, catalysis, and in biosensors [21][22][23][24][25][26][27][28][29][30][31]. For instance, controlled electrochemical treatments could produce highly reproducible nanotemplates with various pore sizes and array patterns [23][24][25].…”

“…For instance, controlled electrochemical treatments could produce highly reproducible nanotemplates with various pore sizes and array patterns [23][24][25]. A large surface area ratio over volume in AAO results in enhanced chemical reaction in catalytic applications [26,27]. The periodic nanoarrays are also excellent platforms for biosensing applications [28,29].…”

Cost-Effective and High-Throughput Plasmonic Interference Coupled Nanostructures by Using Quasi-Uniform Anodic Aluminum Oxide

“…Anodic aluminum oxide (AAO) films containing self-ordered nanoscale pores have been extensively studied, as they can be served as a versatile template in various applications, including nanostructure synthesis, catalysis, and in biosensors [21][22][23][24][25][26][27][28][29][30][31]. For instance, controlled electrochemical treatments could produce highly reproducible nanotemplates with various pore sizes and array patterns [23][24][25].…”

“…For instance, controlled electrochemical treatments could produce highly reproducible nanotemplates with various pore sizes and array patterns [23][24][25]. A large surface area ratio over volume in AAO results in enhanced chemical reaction in catalytic applications [26,27]. The periodic nanoarrays are also excellent platforms for biosensing applications [28,29].…”

Cost-Effective and High-Throughput Plasmonic Interference Coupled Nanostructures by Using Quasi-Uniform Anodic Aluminum Oxide

Thermoelectric Performance of Ge-Doped Mg2Si0.35Sn0.65 Thin Films