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Structural and Photoconductivity Properties of Tellurium/PMMA Films.

Carotenuto G, Palomba M, De Nicola S, Ambrosone G, Coscia U - Nanoscale Res Lett (2015)

Bottom Line: A novel material was obtained by binding the nanosized tellurium grains with poly(methyl methacrylate) (PMMA) polymer.The prepared material was composed of hexagonal tellurium and α-phase of tellurium oxide.Data analysis shows that the photoconductivity of the film with sandwich contact configuration is a linear function of the light power density and increases more than 2 orders of magnitude as compared to the photoresponse of the film with coplanar contact configuration.

View Article: PubMed Central - PubMed

Affiliation: Institute for Polymers, Composites and Biomaterials, National Research Council, Piazzale E. Fermi 1, 80055, Portici, Naples, Italy.

ABSTRACT
Owing to the very brittle nature of tellurium powder, nanoscopic grains with an average size of 4.8 ± 0.8 nm were produced by dry vibration milling technique using a mixer/mill apparatus. A novel material was obtained by binding the nanosized tellurium grains with poly(methyl methacrylate) (PMMA) polymer. The morphology, elemental composition, and structural and optical properties of Te/PMMA films were investigated. The prepared material was composed of hexagonal tellurium and α-phase of tellurium oxide. The electrical properties of the films were studied, for different electrode contact configurations, in dark condition and under white light illumination varying the optical power density from 2 to 170 mW/cm(2) and turning the light on and off cyclically. Data analysis shows that the photoconductivity of the film with sandwich contact configuration is a linear function of the light power density and increases more than 2 orders of magnitude as compared to the photoresponse of the film with coplanar contact configuration.

No MeSH data available.


SEM micrograph of the Te/PMMA film
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Fig4: SEM micrograph of the Te/PMMA film

Mentions: The morphology of the film was investigated by SEM. The micrograph, shown in Fig. 4, reveals that the material was quite porous, due to the very high inorganic phase content. In particular, both macro- and micro-porosities can be clearly observed as black areas in the image.Fig. 4


Structural and Photoconductivity Properties of Tellurium/PMMA Films.

Carotenuto G, Palomba M, De Nicola S, Ambrosone G, Coscia U - Nanoscale Res Lett (2015)

SEM micrograph of the Te/PMMA film
© Copyright Policy - OpenAccess
Related In: Results  -  Collection

License
Show All Figures
getmorefigures.php?uid=PMC4526513&req=5

Fig4: SEM micrograph of the Te/PMMA film
Mentions: The morphology of the film was investigated by SEM. The micrograph, shown in Fig. 4, reveals that the material was quite porous, due to the very high inorganic phase content. In particular, both macro- and micro-porosities can be clearly observed as black areas in the image.Fig. 4

Bottom Line: A novel material was obtained by binding the nanosized tellurium grains with poly(methyl methacrylate) (PMMA) polymer.The prepared material was composed of hexagonal tellurium and α-phase of tellurium oxide.Data analysis shows that the photoconductivity of the film with sandwich contact configuration is a linear function of the light power density and increases more than 2 orders of magnitude as compared to the photoresponse of the film with coplanar contact configuration.

View Article: PubMed Central - PubMed

Affiliation: Institute for Polymers, Composites and Biomaterials, National Research Council, Piazzale E. Fermi 1, 80055, Portici, Naples, Italy.

ABSTRACT
Owing to the very brittle nature of tellurium powder, nanoscopic grains with an average size of 4.8 ± 0.8 nm were produced by dry vibration milling technique using a mixer/mill apparatus. A novel material was obtained by binding the nanosized tellurium grains with poly(methyl methacrylate) (PMMA) polymer. The morphology, elemental composition, and structural and optical properties of Te/PMMA films were investigated. The prepared material was composed of hexagonal tellurium and α-phase of tellurium oxide. The electrical properties of the films were studied, for different electrode contact configurations, in dark condition and under white light illumination varying the optical power density from 2 to 170 mW/cm(2) and turning the light on and off cyclically. Data analysis shows that the photoconductivity of the film with sandwich contact configuration is a linear function of the light power density and increases more than 2 orders of magnitude as compared to the photoresponse of the film with coplanar contact configuration.

No MeSH data available.