Effect of oxygen pressure on photoluminescence spectra and hall coefficients of Li-Ni Co-Doped ZnO films grown by a pulsed laser deposition

K. Sakai; K. Ishikura; D. Ohori; D. Nakamura; A. Fukuyama; T. Okada; M. S. Ramachandra Rao; T. Ikari

doi:10.1007/978-81-322-1160-0_4

Effect of oxygen pressure on photoluminescence spectra and hall coefficients of Li-Ni Co-Doped ZnO films grown by a pulsed laser deposition

K. Sakai, K. Ishikura, D. Ohori, D. Nakamura, A. Fukuyama, T. Okada, M. S. Ramachandra Rao, T. Ikari

Applied Energy Engineering

Research output: Chapter in Book/Report/Conference proceeding › Chapter

Abstract

Since the co-doping method is a key technique for the realization of p-type ZnO films, we grew samples by the co-doping of Li and Ni impurities using a pulsed laser deposition technique to investigate the formation of a possible acceptor level. The effect of the oxygen gas pressure on the physical properties is discussed. The electrical and optical properties of the films were investigated through Hall and photoluminescence (PL) measurements. Although p-type conduction was not observed, we were able to observe the change in conduction type from n-type to insulating upon increasing the oxygen pressure. PL spectra of co-doped samples were investigated at 10 K by comparison with those of mono-doped samples. Co-doping drastically changes the PL spectral shape and reveals additional peaks at 2.4 and 3.0 eV, which could not be observed in the spectra of mono-doped samples. The experimental results showed that the acceptor level was indeed formed by the co-doping of Li and Ni.

Original language	English
Title of host publication	ZnO Nanocrystals and Allied Materials
Editors	M.S. Ramachandra Rao, Tatsuo Okada
Pages	91-99
Number of pages	9
DOIs	https://doi.org/10.1007/978-81-322-1160-0_4
Publication status	Published - 2014

Publication series

Name	Springer Series in Materials Science
Volume	180
ISSN (Print)	0933-033X

All Science Journal Classification (ASJC) codes

Materials Science(all)

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10.1007/978-81-322-1160-0_4

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Sakai, K., Ishikura, K., Ohori, D., Nakamura, D., Fukuyama, A., Okada, T., Ramachandra Rao, M. S., & Ikari, T. (2014). Effect of oxygen pressure on photoluminescence spectra and hall coefficients of Li-Ni Co-Doped ZnO films grown by a pulsed laser deposition. In M. S. Ramachandra Rao, & T. Okada (Eds.), ZnO Nanocrystals and Allied Materials (pp. 91-99). (Springer Series in Materials Science; Vol. 180). https://doi.org/10.1007/978-81-322-1160-0_4

Effect of oxygen pressure on photoluminescence spectra and hall coefficients of Li-Ni Co-Doped ZnO films grown by a pulsed laser deposition. / Sakai, K.; Ishikura, K.; Ohori, D. et al.
ZnO Nanocrystals and Allied Materials. ed. / M.S. Ramachandra Rao; Tatsuo Okada. 2014. p. 91-99 (Springer Series in Materials Science; Vol. 180).

Research output: Chapter in Book/Report/Conference proceeding › Chapter

Sakai, K, Ishikura, K, Ohori, D, Nakamura, D, Fukuyama, A, Okada, T, Ramachandra Rao, MS & Ikari, T 2014, Effect of oxygen pressure on photoluminescence spectra and hall coefficients of Li-Ni Co-Doped ZnO films grown by a pulsed laser deposition. in MS Ramachandra Rao & T Okada (eds), ZnO Nanocrystals and Allied Materials. Springer Series in Materials Science, vol. 180, pp. 91-99. https://doi.org/10.1007/978-81-322-1160-0_4

Sakai K, Ishikura K, Ohori D, Nakamura D, Fukuyama A, Okada T et al. Effect of oxygen pressure on photoluminescence spectra and hall coefficients of Li-Ni Co-Doped ZnO films grown by a pulsed laser deposition. In Ramachandra Rao MS, Okada T, editors, ZnO Nanocrystals and Allied Materials. 2014. p. 91-99. (Springer Series in Materials Science). doi: 10.1007/978-81-322-1160-0_4

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abstract = "Since the co-doping method is a key technique for the realization of p-type ZnO films, we grew samples by the co-doping of Li and Ni impurities using a pulsed laser deposition technique to investigate the formation of a possible acceptor level. The effect of the oxygen gas pressure on the physical properties is discussed. The electrical and optical properties of the films were investigated through Hall and photoluminescence (PL) measurements. Although p-type conduction was not observed, we were able to observe the change in conduction type from n-type to insulating upon increasing the oxygen pressure. PL spectra of co-doped samples were investigated at 10 K by comparison with those of mono-doped samples. Co-doping drastically changes the PL spectral shape and reveals additional peaks at 2.4 and 3.0 eV, which could not be observed in the spectra of mono-doped samples. The experimental results showed that the acceptor level was indeed formed by the co-doping of Li and Ni.",

author = "K. Sakai and K. Ishikura and D. Ohori and D. Nakamura and A. Fukuyama and T. Okada and {Ramachandra Rao}, {M. S.} and T. Ikari",

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AU - Sakai, K.

AU - Ishikura, K.

AU - Ohori, D.

AU - Nakamura, D.

AU - Fukuyama, A.

AU - Okada, T.

AU - Ramachandra Rao, M. S.

AU - Ikari, T.

PY - 2014

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N2 - Since the co-doping method is a key technique for the realization of p-type ZnO films, we grew samples by the co-doping of Li and Ni impurities using a pulsed laser deposition technique to investigate the formation of a possible acceptor level. The effect of the oxygen gas pressure on the physical properties is discussed. The electrical and optical properties of the films were investigated through Hall and photoluminescence (PL) measurements. Although p-type conduction was not observed, we were able to observe the change in conduction type from n-type to insulating upon increasing the oxygen pressure. PL spectra of co-doped samples were investigated at 10 K by comparison with those of mono-doped samples. Co-doping drastically changes the PL spectral shape and reveals additional peaks at 2.4 and 3.0 eV, which could not be observed in the spectra of mono-doped samples. The experimental results showed that the acceptor level was indeed formed by the co-doping of Li and Ni.

AB - Since the co-doping method is a key technique for the realization of p-type ZnO films, we grew samples by the co-doping of Li and Ni impurities using a pulsed laser deposition technique to investigate the formation of a possible acceptor level. The effect of the oxygen gas pressure on the physical properties is discussed. The electrical and optical properties of the films were investigated through Hall and photoluminescence (PL) measurements. Although p-type conduction was not observed, we were able to observe the change in conduction type from n-type to insulating upon increasing the oxygen pressure. PL spectra of co-doped samples were investigated at 10 K by comparison with those of mono-doped samples. Co-doping drastically changes the PL spectral shape and reveals additional peaks at 2.4 and 3.0 eV, which could not be observed in the spectra of mono-doped samples. The experimental results showed that the acceptor level was indeed formed by the co-doping of Li and Ni.

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Effect of oxygen pressure on photoluminescence spectra and hall coefficients of Li-Ni Co-Doped ZnO films grown by a pulsed laser deposition

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