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“JSTS has been indexed and abstracted in the SCIE (Science Citation Index Expanded) since Volume 9, Issue 1 in 2009. Furthermore, it continues to maintain its listing in the SCOPUS database and is recognized as a regular journal by the Korea Research Foundation.

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References

1 
Ishihara J., Nakamura A., Shigemori S., Aoki T., Temmyo J., 2006, Zn1-xCdxO systems with visible bandgaps, Appl. Phys. Lett., Vol. 89, No. 9, pp. 10-12DOI
2 
Hou Q., Xi D., Li W., Jia X., Xu Z., 2018, First-principles research on the optical and electrical properties and mechanisms of In-doped ZnO, Phys. B Condens. Matter, Vol. 537, pp. 258-266DOI
3 
Fan Z., Lu J. G., 2005, Zinc oxide nanostructures: Synthesis and properties, J. Nanosci. Nanotechnol., Vol. 5, No. 10, pp. 1561-1573DOI
4 
Song D. M., Wang T. H., Li J. C., 2012, First principles study of periodic size dependent bandgap variation of Cu doped ZnO single-wall nanotube, J. Mol. Model., Vol. 18, No. 12, pp. 5035-5040DOI
5 
Janotti A., Van De Walle C. G., 2009, Fundamentals of zinc oxide as a semiconductor, Reports Prog. Phys., Vol. 72, No. 12DOI
6 
Chuanhui Xia , Feng Wang , Chunlian Hu , 2014, Theoretical and experimental studies on electronic structure and optical properties of Cu-doped ZnO, Journal of Alloys and Compounds, Vol. 589, pp. 604-608DOI
7 
Sekar A., Kim S. H., Umar A., Hahn Y. B., 2005, Catalyst-free synthesis of ZnO nanowires on Si by oxidation of Zn powders, J. Cryst. Growth, Vol. 277, No. 1-4, pp. 471-478DOI
8 
Sahal M., Hartiti B., Ridah A., Mollar M., Marí B., 2008, Structural, electrical and optical properties of ZnO thin films deposited by sol-gel method, MicroelectronicsJ., Vol. 39, No. 12, pp. 1425-1428DOI
9 
Gao W., Li Z.W., 2008, Photoluminescence properties of ZnO films grown by wet oxidation: Effect of processing, Journal of Alloys and CompoundsDOI
10 
Luan Z., Sun D., Tan C., Tian X., Huang Y., 2017, First-principles calculations of electronic structure and optical properties of Be-doped ZnO monolayer, Integr. Ferroelectr., Vol. 179, No. 1, pp. 84-94DOI
11 
El Ghoul J., Bouguila N., Gómez-Lopera S. A., El Mir L., 2013, Structural and optical properties of nanoparticles (V, Al) co-doped ZnO synthesized by sol-gel processes, SuperlatticesMicrostruct., Vol. 64, pp. 451-459DOI
12 
Chen H., Qu Y., Sun L., Peng J., Ding J., 2019, Band structures and optical properties of Ag and Al co-doped ZnO by experimental and theoretic calculation, Physica E: Low-Dimensional Syst. Nanostructures, Vol. 114DOI
13 
Wang Q. B., Zhou C., Wu J., Lü T., 2013, A GGA+U study of the optical properties of vanadium doped ZnO with and without single intrinsic vacancy, Opt. Commun., Vol. 297, pp. 79-84DOI
14 
Gherouel D., Dabbous S., Boubaker K., Amlouk M., 2013, Vanadium doping patterns in ZnO lattices in the lattice compatibility theory framework, Mater. Sci. Semicond. Process., Vol. 16, No. 6, pp. 1434-1438DOI
15 
Tan C., Sun D., Xu D., Tian X., Huang Y., 2016, Tuning electronic structure and optical properties of ZnO monolayer by Cd doping, Ceram. Int., Vol. 42, No. 9, pp. 10997-11002DOI
16 
Xia C., Wang F., Hu C., 2014, Theoretical and experimental studies on electronic structure and optical properties of Cu-doped ZnO, J. Alloys Compd., Vol. 589, pp. 604-608DOI
17 
Tan H., Jia C., Ge X., Xiang C., 2012, First-principles conductance calculations of Ag-Al Co-doped ZnO, Adv. Mater. Res., Vol. 468-471, pp. 1726-1731DOI
18 
Xiang Q., Xiong Z., Chen L., Jiang Y., 2012, Effect of Er doping on the electronic structure and optical properties of ZnO, 6th Int. Symp. Adv. Opt. Manuf. Test. Technol. Des. Manuf. Test. Smart Struct. Micro- Nano-Optical Devices, Syst., Vol. 8418, pp. 84181GDOI
19 
Maensiri S., Masingboon C., Promarak V., Seraphin S., 2007, Synthesis and optical properties of nanocrystalline V-doped ZnO powders, Opt. Mater. (Amst)., Vol. 29, No. 12, pp. 1700-1705DOI
20 
Li-Wei W., Zheng X., Li-Jian M., Teixeira V., Shi-Geng S., Xu-Rong X., 2009, Influence of concentration of vanadium in Zinc oxide on structural and optical properties with lower concentration, Chinese Phys. Lett., Vol. 26, No. 7DOI
21 
Abaira R., El Ghoul J., Fabbri F., Matoussi A., ElMir L., Salviati G., 2016, Synthesis and enhanced effect of vanadium on structural and optical properties of zinc oxide, Opt. Quantum Electron., Vol. 48, No. 2, pp. 1-10DOI
22 
Dai J., Suo Z., Li Z., Gao S., 2019, Effect of Cu/Al doping on electronic structure and optical properties of ZnO, Results Phys., Vol. 15, pp. 102649DOI
23 
Clark Stewart J., Segall Matthew D., Pickard Chris J., Hasnip Phil J., Probert Matt I. J., Keith Refson , Payne Mike C., 2005, First principles methods using CASTEP, Z. Kristallogr, Vol. 220, pp. 567-570DOI
24 
Payne M. C., Teter M. P., Allan D. C., Arias T. A., Joannopoulos J. D., 1992, Iterative minimization techniques for ab initio total-energy calculations: Molecular dynamics and conjugate gradients, Rev. Mod. Phys., Vol. 64, No. 4, pp. 1045-1097DOI
25 
Liu W., Ch.-linLiu , X.-boChen , J.-huaLu , H.Chen , Miao Zh., First-principles study on electronic and optical properties of S, N single-doped and S-N co-doped ZnO, Physics Letters A. 2020 Ma 20, Vol. 384, No. 8, pp. 126172DOI
26 
Perdew J. P., Burke K., Ernzerhof M., 1996, Generalized gradient approximation made simple, Phys. Rev. Lett., Vol. 77, No. 18, pp. 3865-3868DOI
27 
Song D. M., Li J. C., 2012, First principles study of bandgap of Cu doped ZnO single-wall nanotube modulated by impurity concentration and concentration gradient, Comput. Mater. Sci., Vol. 65, pp. 175-181DOI
28 
Zhanhong Ma , Fengzhang Ren , Xiaoli Ming , Yongqiang Long , Volinsky Alex A., 2019, Cu-Doped ZnO Electronic Structure and Optical Properties Studied by First-Principles Calculations and Experiments, Materials, Vol. 12, No. 196DOI
29 
Peng Y., Wei S., Xia C., Jia Y., 2013, Electronic structures and magnetism in Cu-DOPED ZnO monolayer, Mod. Phys. Lett. B, Vol. 27, No. 28, pp. 1-9DOI
30 
Chang Feng , Zhuoyuan Chen , Weibing Li , Fan Zhang , Xiangbo Li , Likun Xu , Mingxian Sun , 2019, First-principle calculation of the electronic structures and optical properties of the metallic and nonmetallic elements-doped ZnO on the basis of photocatalysis, Physica B: Condensed Matter, Vol. 555, pp. 53-60DOI
31 
Li Z., Li J., Lei J., Xiong M., Wang N., Zhang S., 2021, First-principles study of structure, electrical and optical properties of Al and Mo co-doped ZnO, Vacuum, Vol. 186, No. January, pp. 110062DOI
32 
LI Ch., GAO G., CHEN. X., 2016 Sep., Electronic Structure and Optical Properties of Co and Fe doped ZnO. Journal of Nano Research, 43, pp. 23-28DOI
33 
Pack H. J. M. James D., 1977, Special points for Brillonln-zone integrations"—a reply, J. Chem. Inf. Model., Vol. 16, No. 4, pp. 1748-1749DOI
34 
Vogel D., Kr̈ger P., Pollmann J., 1995, Ab initio electronic-structure calculations for II-VI semiconductors using self-interaction-corrected pseudopotentials, Phys. Rev. B, Vol. 52, No. 20, pp. 316-319DOI
35 
Liu Y., Hou Q., Sha S., Xu Z., 2020, Electronic structure, optical and ferromagnetic properties of ZnO co-doped with Ag and Co according to first-principles calculations, Vacuum, Vol. 173, pp. 109127DOI
36 
Mahmood A., Tezcan F., Kardaş G., Karadağ. F., 2017 Sep. 15, Effect of Sr doping on the electronic band structure and optical properties of ZnO: A first principle calculation, Vol. 122, No. 113102DOI
37 
Zhao H., et al. , 2021, Electronic structure and optical properties of Ce-doped AlN studied by first-principles, Optik (Stuttg)., Vol. 243, No. May, pp. 167455DOI
38 
Khalil R. M. A., et al. , 2021, Effect of dopants on the structural, optoelectronic and magnetic properties of pristine AgGaO3 perovskite: A first principles study, Optik (Stuttg)., Vol. 244, No. June, pp. 167555DOI
39 
Dai J., Suo Zh., Li Z., Gao. Sh., 2019 Sep. 11., Effect of Cu/Al doping on electronic structure and optical properties of ZnO, Results in Physics., Vol. 15, No. 102649DOI
40 
Wang Q., Zhou C., Wu J., Lu T., 2013 Jun 15, A GGA-U study of the optical properties of vanadium doped ZnO with and without single intrinsic vacancy, Optics Communications, Vol. 297, pp. 79-84DOI
41 
Zhao Y., Yang H., Yang B., Liu Zh., Yang. P., 2016 Des 15, Effects of uniaxial stress on the electrical structure and optical properties of Al-doped n-type ZnO, Solar Energy, Vol. 140, pp. 21-26DOI
42 
Baizid A., Mokadem A., Ouerdane A., Guezzoul M., Bouslama M., Benchenane H., Kharroubi B., Bedrouni M., Abdelkrim M., Benmokhtar Bensassi K., Salah Halati. M., 2021 Mar 16, First principles calculation of structural, electronic, optical properties of K-doped ZnO, Computational Condensed Matter, Vol. 27DOI