2014
DOI: 10.1021/am504785f
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Highly Conductive Cu2–xS Nanoparticle Films through Room-Temperature Processing and an Order of Magnitude Enhancement of Conductivity via Electrophoretic Deposition

Abstract: A facile room-temperature method for assembling colloidal copper sulfide (Cu2-xS) nanoparticles into highly electrically conducting films is presented. Ammonium sulfide is utilized for connecting the nanoparticles via ligand removal, which transforms the as-deposited insulating films into highly conducting films. Electronic properties of the treated films are characterized with a combination of Hall effect measurements, field-effect transistor measurements, temperature-dependent conductivity measurements, and … Show more

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Cited by 50 publications
(75 citation statements)
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“…Electrical conductivity is an important parameter to characterize electronic transport properties . The conductivity of the Cu 2− x S NC films were measured by using a two‐point method based on a device structure of glass substrate/Cu 2− x S NC film/aluminum.…”
Section: Resultsmentioning
confidence: 99%
“…Electrical conductivity is an important parameter to characterize electronic transport properties . The conductivity of the Cu 2− x S NC films were measured by using a two‐point method based on a device structure of glass substrate/Cu 2− x S NC film/aluminum.…”
Section: Resultsmentioning
confidence: 99%
“…In fact, CdS/Cu 2 S heterojunction solar cells were among the earliest thin‐film solar cells to be investigated, but their further development was hindered by the low stability of the p/n junction, which deteriorated in air due formation of Cu vacancies and Cd–Cu interdiffusion . The possibility to make colloidal dispersions of monodisperse Cu 2− x S NCs has renewed interest in Cu 2− x S for PVs, as it allows the fabrication of solar cells by solution‐deposition techniques, such as ink‐jet printing by using nanocrystal inks. Nevertheless, ternary and quaternary copper chalcogenides have superior environmental stability and efficiency and are, therefore, preferred in the fabrication of PV devices (see Sections 3.3.2 and 4.3.1).…”
Section: Binary Copper Chalcogenidesmentioning
confidence: 99%
“…For the Cu 2 S thin film, the conductivity decreases with decreasing temperature in the range 300 to 2 K (Figure 4b), showing a typical semiconductor behavior. 37 During the cooling process, the carrier mobility initially decreases and then increases below 100 K, which is also a common behavior of Cu 2 S. For the Cu 2 Se thin film, the overall conductivity does not change significantly with the temperature variation ( Figure 4e). The carrier mobility in Cu 2 Se shows similar behavior to that of Cu 2 S, which decreases first and then increases at low temperature.…”
Section: Resultsmentioning
confidence: 71%