참고문헌 (23)

1. Sivula, Kevin, van de Krol, Roel. Semiconducting materials for photoelectrochemical energy conversion. Nature reviews. Materials, vol.1, no.2, 15010-.

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2. Abdi, Fatwa F, Berglund, Sean P. Recent developments in complex metal oxide photoelectrodes. Journal of physics. D, applied physics, vol.50, no.19, 193002-.

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3. Lee, Dong Ki, Choi, Kyoung-Shin. Enhancing long-term photostability of BiVO₄ photoanodes for solar water splitting by tuning electrolyte composition. Nature energy, vol.3, no.1, 53-60.

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4. Jiang, Chaoran, Moniz, Savio J. A., Wang, Aiqin, Zhang, Tao, Tang, Junwang. Photoelectrochemical devices for solar water splitting - materials and challenges. Chemical Society reviews, vol.46, no.15, 4645-4660.

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5. Ye, Kai-Hang, Wang, Zilong, Li, Haibo, Yuan, Yufei, Huang, Yongchao, Mai, Wenjie. A novel CoOOH/(Ti, C)-Fe2O3 nanorod photoanode for photoelectrochemical water splitting. Science China materials, vol.61, no.6, 887-894.

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6. Kim, Jae Young, Youn, Duck Hyun, Kim, Ju Hun, Kim, Hyun Gyu, Lee, Jae Sung. Nanostructure-Preserved Hematite Thin Film for Efficient Solar Water Splitting. ACS applied materials & interfaces, vol.7, no.25, 14123-14129.

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7. Kim, Ju Hun, Jang, Youn Jeong, Choi, Sun Hee, Lee, Byeong Jun, Kim, Jeong Hun, Park, Yoon Bin, Nam, Chang-Mo, Kim, Hyun Gyu, Lee, Jae Sung. A multitude of modifications strategy of ZnFe₂O₄ nanorod photoanodes for enhanced photoelectrochemical water splitting activity. Journal of materials chemistry. A, Materials for energy and sustainability, vol.6, no.26, 12693-12700.

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8. Jang, Youn Jeong, Jang, Ji-Wook, Choi, Sun Hee, Kim, Jae Young, Kim, Ju Hun, Youn, Duck Hyun, Kim, Won Yong, Han, Suenghoon, Sung Lee, Jae. Tree branch-shaped cupric oxide for highly effective photoelectrochemical water reduction. Nanoscale, vol.7, no.17, 7624-7631.

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9. Kim, Ju Hun, Kim, Jin Hyun, Jang, Ji‐Wook, Kim, Jae Young, Choi, Sun Hee, Magesh, Ganesan, Lee, Jinwoo, Lee, Jae Sung. Awakening Solar Water‐Splitting Activity of ZnFe₂O₄ Nanorods by Hybrid Microwave Annealing. Advanced energy materials, vol.5, no.6, 1401933-.

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10. Jang, Youn Jeong, Park, Yoon Bin, Kim, Hyo Eun, Choi, Yo Han, Choi, Sun Hee, Lee, Jae Sung. Oxygen-Intercalated CuFeO₂ Photocathode Fabricated by Hybrid Microwave Annealing for Efficient Solar Hydrogen Production. Chemistry of materials : a publication of the American Chemical Society, vol.28, no.17, 6054-6061.

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11. Zhang, Hemin, Kim, Ju Hun, Kim, Jin Hyun, Lee, Jae Sung. Water Splitting: Engineering Highly Ordered Iron Titanate Nanotube Array Photoanodes for Enhanced Solar Water Splitting Activity (Adv. Funct. Mater. 35/2017). Advanced functional materials, vol.27, no.35, adfm.201770208-.

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12. Kim, Ju Hun, Jang, Youn Jeong, Kim, Jin Hyun, Jang, Ji-Wook, Choi, Sun Hee, Lee, Jae Sung. Defective ZnFe₂O₄ nanorods with oxygen vacancy for photoelectrochemical water splitting. Nanoscale, vol.7, no.45, 19144-19151.

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13. Taffa, Dereje H., Dillert, Ralf, Ulpe, Anna C., Bauerfeind, Katharina C. L., Bredow, Thomas, Bahnemann, Detlef W., Wark, Michael. Photoelectrochemical and theoretical investigations of spinel type ferrites (M_xFe_3−xO₄) for water splitting: a mini-review. Journal of photonics for energy, vol.7, no.1, 012009-.

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14. Dillert, Ralf, Taffa, Dereje H., Wark, Michael, Bredow, Thomas, Bahnemann, Detlef W.. Research Update: Photoelectrochemical water splitting and photocatalytic hydrogen production using ferrites (MFe2O4) under visible light irradiation. APL materials, vol.3, no.10, 104001-.

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15. 10.5772/34181 

    

16. Oghbaei, Morteza, Mirzaee, Omid. Microwave versus conventional sintering: A review of fundamentals, advantages and applications. Journal of alloys and compounds, vol.494, no.1, 175-189.

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17. Peter, Laurence M., Wijayantha, K. G. Upul, Tahir, Asif A.. Kinetics of light-driven oxygen evolution at α-Fe₂O₃ electrodes. Faraday discussions, vol.155, 309-322.

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18. Abdi, Fatwa F., Chemseddine, Abdelkrim, Berglund, Sean P., van de Krol, Roel. Assessing the Suitability of Iron Tungstate (Fe₂WO₆) as a Photoelectrode Material for Water Oxidation. The journal of physical chemistry. C, Nanomaterials and Interfaces, vol.121, no.1, 153-160.

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19. Hufnagel, Alexander G., Peters, Kristina, Müller, Alexander, Scheu, Christina, Fattakhova‐Rohlfing, Dina, Bein, Thomas. Zinc Ferrite Photoanode Nanomorphologies with Favorable Kinetics for Water‐Splitting. Advanced functional materials, vol.26, no.25, 4435-4443.

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20. Dunn, Halina K., Feckl, Johann M., Müller, Alexander, Fattakhova-Rohlfing, Dina, Morehead, Samuel G., Roos, Julian, Peter, Laurence M., Scheu, Christina, Bein, Thomas. Tin doping speeds up hole transfer during light-driven water oxidation at hematite photoanodes. Physical chemistry chemical physics : PCCP, vol.16, no.44, 24610-24620.

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21. Thorne, James E., Jang, Ji-Wook, Liu, Erik Y., Wang, Dunwei. Understanding the origin of photoelectrode performance enhancement by probing surface kinetics. Chemical science, vol.7, no.5, 3347-3354.

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22. Shinde, Pravin S., Choi, Sun Hee, Kim, Yongsam, Ryu, Jungho, Jang, Jum Suk. Onset potential behavior in α-Fe₂O₃ photoanodes: the influence of surface and diffusion Sn doping on the surface states. Physical chemistry chemical physics : PCCP, vol.18, no.4, 2495-2509.

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23. Annamalai, Alagappan, Shinde, Pravin S., Subramanian, Arunprabaharan, Kim, Jae Young, Kim, Jin Hyun, Choi, Sun Hee, Lee, Jae Sung, Jang, Jum Suk. Bifunctional TiO₂ underlayer for α-Fe₂O₃ nanorod based photoelectrochemical cells: enhanced interface and Ti⁴⁺ doping. Journal of materials chemistry. A, Materials for energy and sustainability, vol.3, no.9, 5007-5013.

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