materials-science-2017-posters-accepted-abstracts

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November 13-15, 2017 | Las Vegas, USA

International Conference and Exhibition on

Materials Science and Engineering

RRJOMS | Volume 5 | Issue 7 | November, 2017

Effects of doping ratio of Cobalt and Iron on the structure and optical properties of ferroelectric bismuth

titanates

Chung Wung Bark

and

Sangmo Kim, Sung Kwan Shin

and

Hyung Wook Choi,

Gachon University, Republic of Korea

he wide band gap of complex oxides is one of the major obstacles limiting their use in photovoltaic cells. Tunability of the bandgap

for ferroelectric complex oxides is one of the key issues for photovoltaic applications. We report doped ferroelectric oxides with

narrow bandgaps and photovoltaic effect. To identify an effective route for tailoring the band gap of complex oxides, this study

examined the effects of cobalt and iron doping on lanthanum-modified Bi

-based oxides synthesized using a solid reaction.

The structural and optical properties were analyzed by X-ray diffraction and ultraviolet-visible absorption spectroscopy. As a result,

the optimal iron to cobalt doping ratio in bismuth titanate powder resulted in ~1.94eV decrease in the optical band gap. In the film

form, the optical bandgaps of Co-doped Bi

3.25

0.25

(BLT) and Fe, Co- doped BLT films was narrower than that of non-doped

BLT by more than 1 eV. Correlated with the bandgap reduction, the Fe,Co-doped BLT film shows largely enhanced the photocurrent

density by 25 times that of than BLT films. The density functional theory (DFT) calculation confirms that intermixed transition metal

dopants (Fe, Co) in BLT generate novel energy states under conduction band. This new route to reduce the optical bandgap can be

adapted to the synthesis of other complex oxides. This approach to tune the bandgap by simple doping could be applied to other wide-

bandgap materials, which have the potential to be used in solar energy conversion or optoelectronic applications.

Biography

Chung Wung Bark has completed his PhD from POSTECH, Korea and postdoctoral studies from University of Wisconsin-Madison, USA. He has published more than 150

papers in SCI journals and has been serving as a guest editorial board member.

bark@gachon.ac.kr

Chung Wung Bark et al., Res. Rev. J Mat. Sci. 2017, 5:7

DOI: 10.4172/2321-6212-C1-012