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Metallurgical and Materials Transactions A

Erschienen in:

09.01.2017

On the Role of High Amounts of Mn Element in CdS Structure

verfasst von: Meryem Polat Gonullu, Salih Kose

Erschienen in: Metallurgical and Materials Transactions A | Ausgabe 3/2017

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Abstract

CdS and MnS are technologically important semiconducting materials. In this work, due to the limited ability of these materials separately, a detailed characterization of the new samples formed by the combined use of them has been reported. CdS films, with the incorporation of Mn in a wide range of concentrations, have been produced by a low-cost Ultrasonic Spray Pyrolysis set-up. Spectroscopic Ellipsometry (SE) has been used to determine the thicknesses and optical constants (n, k) of the samples. It has been determined that samples with high amounts of Mn have lower refractive index values. Absorbance spectra have shown additional band edges along with the one belonging to CdS, for samples with Mn concentrations higher than 50 pct. This has been attributed to a phase separation above this limit. Raman spectroscopy analysis which shows additional Raman peaks belonging to MnS phase also supports these findings. Depending on this phase separation, crystalline structure has been deteriorated. Surface properties of the samples have been investigated by SEM and AFM. Elemental analysis has been performed by EDS. Resistivity measurements performed by a four-probe set-up have shown that samples containing high amount of Mn have lower electrical resistivity values.

Vorheriger Artikel Hot Deformation Behavior and Dynamic Recrystallization of Medium Carbon LZ50 Steel

Nächster Artikel Structure and Properties of High-Temperature Multilayer Hybrid Material Based on Vanadium Alloy and Stainless Steel

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[1] M. Girish, T. Dhandayuthapani, R. Sivakumar, C. Sanjeeviraja: J. Mater Sci- Mater El., 2015, vol. 26, pp. 3670-3684.CrossRef

C.I. Usoh and C.U. Okujagu: Res. J. Phys. Sci., 2014, vol. 2(2), pp. 1-8.

D. Sreekantha Reddy, D. Raja Reddy, B.K. Reddy, A. Mallikarjuna Reddy, K.R. Gunasekhar, P. Sreedhara Reddy: J. Optoelectron. Adv. Mater., 2007, vol. 9, pp. 2019–2027.

[4] P. Rajı, C. Sanjeevıraja, K. Ramachandran: Bull. Mater. Sci., 2005, vol. 28, pp. 233–238.CrossRef

[5] E. Bacaksız, V. Novruzov, H. Karal, E. Yanmaz, M. Altunbas, A.I. Kopya: J. Phys. D., 2001, vol. 34, pp. 3109–3112.CrossRef

[6] P. D. More: J. Surf. Eng. Mater. Adv. Technol., 2013, vol. 3, pp. 43-47

[7] G.C. Puente, O. Vigil, M.O. Lopez, A.M. Acevedo, J. Vidal, M.L.A. Aguilera: Thin Solid Films. 2000, vol. 361/362, pp. 378-382.CrossRef

[8] J. Herrero, M.T. Gutierrez, C. Guillen, J.M. Dona, M.A. Martinez, A.M. Chaparro, R. Bayon: Thin Solid Films., 2000, vol. 361/362, pp. 28-33.CrossRef

P.N. Gibson, M.E. Ozsan, D. Lincot, P. Cowache, D. Summa: Thin Solid Films., 2000 vol. 361/362 (2000) 34-40.CrossRef

10.

[10] M. Kostoglou, N. Andritsos, A.J. Karabelas: Thin Solid Films., 2001, vol. 387, pp. 115-117.CrossRef

11.

[11] S. Prabahar, M. Dhanam: J. Crys. Growth., 2005, vol. 285 pp. 41–48.CrossRef

12.

[12] O. Vigil, O. Z. Angel, Y. Rodriguez: Semicond. Sci. Technol., 2000, vol. 15, pp. 259-262.CrossRef

13.

[13] I. M. Dharmadasa, P. A. Bingham, O. K. Echendu, H. I. Salim, T. Druffel, R. Dharmadasa, G. U. Sumanasekera, R. R. Dharmasena, M. B. Dergacheva, K. A. Mit, K. A. Urazov, L. Bowen, M. Walls, A. Abbas: Coatings., 2014, vol. 4, pp. 380-415.CrossRef

14.

[14] P. Jackson, D. Hariskos, R. Wuerz, W. Wischmann, M. Powalla: Phys. Status Solidi., 2014, vol. 8, pp. 219-222.

15.

[15] T.K. Todorov, J. Tang, S. Bag, O. Gunawan, T. Gokmen, Y. Zhu, D.B. Mitzi: Adv. Energy Mater., 2013, vol. 3, pp. 34-38.CrossRef

16.

[16] J.M. Flores-Marquez, M.L. Albor-Aguilera, Y. Matsumoto-Kuwabara, M.A. Gonzalez-Trujillo, C. Hernandez-Vasquez, R.Mendoza-Perez, G.S. Contreras-Puente, M. Tufiño‐Velazquez: Thin Solid Films., 2015, vol. 582, pp. 124–127CrossRef

17.

D. Sreekantha Reddy, K. Narasimha Rao, K.R. Gunasekhar, N. Koteeswara Reddy, K. Siva Kumar, P. Sreedhara Reddy: Mater. Res. Bull., 2008, vol. 43, pp. 3245–3251.CrossRef

18.

[18] C. Wang, H.M. Wang, Z.Y. Fang: J. Alloy. Compd, 2009, vol. 486, pp. 702–705.CrossRef

19.

D. Sreekantha Reddy, K. Narasimha Rao, K.R. Gunasekhar,Y. D. Reddy, P. S. Reddy: J. Alloy. Compd., 2008, vol. 461, pp. 34–38.

20.

[20] Q. Wang, Z. Xu, L. Yue, W. Chen: Opt. Mater., 2004, vol. 27, pp. 453–458.CrossRef

21.

[21] Q. Pang, B.C. Guo, C.L. Yang, S.H. Yang, M.L. Gong, W.K. Ge, J.N. Wang: J. Crys. Growth, 2004, vol. 269, pp. 213–217.CrossRef

22.

[22] P. Sudhagar, R. Sathyamoorthy, S. Chandramohan, S. Senthilarasu, S.H. Lee: Mater. Lett, 2008, vol. 62, pp. 2430–2433.CrossRef

23.

[23] B. Tripathi, F. Singh, D.K. Avasthi, D. Das, Y.K. Vijay: Phys. B., 2007, vol. 400, pp. 70–76.CrossRef

24.

[24] A.I. Savchuk, V.I. Fediv, A.G. Voloshchuk, T.A. Savchuk, Yu.Yu. Bacherikov, A. Perrone: Mater. Sci. Eng. C., 2006, vol. 26, pp. 809 – 812.CrossRef

25.

[25] B. Tripathi, F. Singh, D.K. Avasthi, A.K. Bhati, D. Das, Y.K. Vijay: J. Alloy Compd., 2008, vol. 454, pp. 97–101.CrossRef

26.

[26] R. Sathyamoorthy, P. Sudhagar, A. Balerna, C. Balasubramanian, S. Bellucci,A.I. Popov, K. Asokan: J. Alloy Compd., 2010, vol. 493, pp. 240–245.CrossRef

27.

[27] Y. Kashiwaba, K. Isojima, K. Ohta: Sol. Energy Mater., 2003, vol. 75, pp. 253-259.CrossRef

28.

[28] A. Fujimori,, J. Okabayashi, Y. Takeda, T. Mizokawa, J. Okamoto, K. Mamiya,Y.Saitoh, Y. Muramatsu, M. Oshima, S. Ohya, M. Tanaka: J. Electron Spectrosc. Relat. Phenom, 2005, vol.144/147, pp. 701–705.CrossRef

29.

[29] S. Aksay, M. Polat, T. Ozer, S. Kose, G. Gurbuz: Appl. Surf. Sci., 2011, vol. 257 pp. 10072– 10077.CrossRef

30.

[30] J.S. Kulkarni, O. Kazakova, J.D. Holmes: Appl. Phys. A., 2006, vol. 85, pp. 277–286.CrossRef

31.

D. Sreekantha Reddy, D. Raja Reddy, B.K. Reddy, N. Koteeswara Reddy, K.R. Gunasekhar, P. S. Reddy: Opt. Mater, 2008, vol. 30, pp. 924–929.CrossRef

32.

[32] S. Chandramohan, A. Kanjilal, J. K. Tripathi,S. N. Sarangi,R. Sathyamoorthy,and T. Som: J. Appl. Phys., 2009, vol. 105, pp. 1–4.CrossRef

33.

[33] B. S. Moon, J.H. Lee, Hakkee Jung: Thin Solid Films., 2006, vol. 511/512, pp. 299–303.CrossRef

34.

[34] A. I. Oliva, O. Solis-Canto, R. Castro-Rodriguez, P. Quintana: Thin Solid Films., 2001, vol. 391, pp. 28–35.CrossRef

35.

[35] J. Nishino, S. Chatani, Y. Uotani, Y. Nosaka: J. Electroanal. Chem., 1999, vol. 473, pp. 217–222.CrossRef

36.

[36] A. Rmili, F. Ouachtari, A. Bouaoud, A. Louardi, T. Chtouki, B. Elidrissi, H. Erguig: J Alloy and Compd., 2013, vol. 557, pp. 53–59.CrossRef

37.

[37] P. P. Sahay, R. K. Nath, S. Tewari: Cryst. Res. Technol., 2007, vol. 42, pp. 275 – 280.CrossRef

38.

[38] F. Atay, S. Kose, V. Bilgin, I. Akyuz: Mater. Lett., 2003, vol. 57, pp. 3461– 3472.CrossRef

39.

[39] F. Atay, V. Bilgin, I. Akyuz, S. Kose: Mater. Sci. Semicond. Process., 2003, vol. 6, pp. 197–203.CrossRef

40.

[40] S. Kose, F. Atay, V. Bilgin, I. Akyuz and E. Ketenci: Appl. Surf. Sci., 2010, vol. 256, pp. 4299–4303.CrossRef

41.

H. Tompkins and E.A. Irene: Handbook of Ellipsometry, 1st ed., William Andrew Publishing, Norwich, NY, 2005, pp. 238–45.CrossRef

42.

H. Fujiwara: Spectroscopic Ellipsometry Principles and Applications, Japanese Edition, Maruzen Co. Ltd, Tokyo, Japan, 2007, pp. 1–7.

43.

R.M.A. Azzam and N.M. Bashara: Ellipsometry and Polarized Light, 3rd Reprint Edition, Elsevier North-Holland, Amsterdam, 1999, pp. 248–55.

44.

H.G. Topmkins and W. A. McGahan: Spectroscopic Ellipsometry and Reflectometry: A User’s Guide, 1st ed., Wiley, Canada, 1999, pp. 19–21.

45.

[45] Z.G. Hu, G.S. Wang, Z.M. Huang, J.H. Chu: Appl. Phys., 2003, vol. 93, pp. 3811–3815.CrossRef

46.

[46] J.M. Khoshman, M.E. Kordesch: J. Non-Cryst. Solids., 2005, vol. 351, pp. 3334–3340.CrossRef

47.

[47] F. Atay, V. Bilgin, I. Akyuz, E. Ketenci, S. Kose: J. Non-Cryst. Solid., 2010, vol. 356, pp. 2192–2197.CrossRef

48.

[48] R. Das, S. Pandey: Int. J. Mater. Sci., 2011, vol. 1, pp. 35–40.

49.

[49] A. Karıper, E. Gunerı, F. Göde, C. Gumus: Chalcogenide Lett., 2012, vol. 9, pp. 27 – 40.

50.

[50] I. K. Battısha, H. H. Afıfy, G. Abd El Fattah And Y. Badr: Fiz. A., 2002, vol.11, pp. 31–42.

51.

[51] B. X. Hop, H. V. Trinh, K. Q. Dat, P. Q. Bao: J. Sci. Math & Phys., 2008, vol. 24, pp. 119–123.

52.

[52] T. Dhandayuthapani, M. Girish, R. Sivakumar, C. Sanjeeviraja, R. Gopalakrishnan: Int. J.ChemTech Res., 2015, vol.7, pp. 974-978.

53.

[53] Eid, A.H, Seddek, M.B.; Salem, A.M.; Dahy, T.M: Vacuum., 2009, vol. 83, pp. 401–407.CrossRef

54.

[54] Eid, A.H.; Seddek, M.B.; Salem, A.M.; Dahy: J. Appl. Sci. Res., 2008, vol. 4/3, pp. 319-330.

55.

B. Tripathi, Y.K. Vijay, Sanjay Wate, F. Singh, D.K. Avasthi: Solid-State Elect., 2007, vol. 51, pp. 81–84.CrossRef

56.

[56] N. Ueda, H. Maeda, H. Hosono, H. Kawazoe: J. Appl. Phys., 1998, vol. 84, pp. 6174–6177.CrossRef

57.

[57] S.M. Zhou, Y.S. Feng, L.D. Zhang: Mater. Lett., 2003, vol. 57, pp. 2936–2939.CrossRef

Titel: On the Role of High Amounts of Mn Element in CdS Structure
verfasst von: Meryem Polat Gonullu
Salih Kose
Publikationsdatum: 09.01.2017
Verlag: Springer US
Erschienen in: Metallurgical and Materials Transactions A / Ausgabe 3/2017
Print ISSN: 1073-5623
Elektronische ISSN: 1543-1940
DOI: https://doi.org/10.1007/s11661-016-3934-4

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