1. Muhsen, M.M., S.M. H. Al-Jawad and A.A. Taha, 2023. NIR laser-conjugated glutathione-coated Mn-doped CuS nanoprisms as photothermal agent for cancer treatment. Lasers Med. Sci., Vol. 38. 10.1007/s10103-022-03668-z.
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2. Muhsen, M.M., S.M.H. Al-Jawad and A.A. Taha, 2022. Gum Arabic-modified Mn-doped CuS nanoprisms for cancer photothermal treatment. Chem. Pap., 76: 6821-6838.
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3. Aboud, K.H. S.M.H. AL-Jawad and N.J. Imran, 2022. Preparation and characterization of hierarchical CdS nanoflowers for efficient photocatalytic degradation. J. Nanostruct., 12: 316-329.
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4. Yousif, N.A. and S.M.H. Al-Jawad, 2021. Influence of Laser wavelength on morphological and optical properties of ZnO nanoparticles prepared by laser ablation in water. J. Phys.: Conf. Ser., Vol. 1795. 10.1088/1742-6596/1795/1/012056.
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5. Shakir, Z.S., S.M.H. AL-Jawad and D.S. Ahmed, 2021. Influence of cobalt doping concentration on ZnO/MWCNTs hybrid prepared by sol-gel method for antibacterial activity. J. Sol-Gel Sci. Technol., 100: 115-131.
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6. Huseen, R.H., A.A. Taha, I.Q. Ali, O.M. Abdulhusein and S.M.H. Al-Jawad, 2021. Biological activity of gum Arabic-coated ferrous oxide nanoparticles. Mod. Phys. Lett. B, Vol. 35. 10.1142/S021798492150411X.
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7. Al-Jawad, S.M.H., M.M. Ismail and S.F. Ghazi, 2021. Characteristics of Ni-doped TiO₂ nanorod array films. J. Aust. Ceram. Soc., 57: 295-304.
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8. AL-Jawad, S.M.H., N.J. Imran and K.H. Aboud, 2021. Synthesis and characterization of Mn:CdS nanoflower thin films prepared by hydrothermal method for photocatalytic activity. J. Sol-Gel Sci. Technol., 100: 423-439.
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9. Judran, H.K., N.A. Yousif and S.M.H. AL-Jawad, 2020. Preparation and characterization of CdS prepared by hydrothermal method. J. Sol-Gel Sci. Technol., 10.1007/s10971-020-05430-9.
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10. Al-Jawad, S.M.H., M.M. Ismail and S.F. Ghazi, 2020. Characteristics of diluted magnetic semiconductor based on Mn-doped TiO₂ nanorod array films. J. Solid State Electrochem., Vol. 12. 10.1007/s10008-020-04823-8.
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11. Al-Jawad, S.M.H., A.A. Taha, A.M. Redha and N.J. Imran, 2020. Influence of nickel doping concentration on the characteristics of nanostructure cus prepared by hydrothermal method for antibacterial activity. Surface Rev. Lett., Vol. 28. 10.1142/s0218625x20500316.
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12. AL-Jawad, S.M.H., N.J. Imran and M.R. Mohammad, 2020. Effect of electrolyte solution and deposition methods on TiO₂/cds coreu2013shell nanotube arrays for photoelectrocatalytic application. Eur. Phys. J. Appl. Phys., 10.1051/epjap/2020200127.
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13. AL-Barram, L.F.A., S.M.H. AL-Jawad, A.A. Taha and N.J. Imran, 2020. Photothermal therapy of cancer cells enhanced by glutathione (GSH) modified small-sized gold nanoparticles. J. Electromagn. Waves Appl., 10.1080/09205071.2020.1822759.
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14. Taha, A.A., S.M.H. AL-Jawad and L.F.A. AL-Barram, 2019. Improvement of cancer therapy by tat peptide conjugated gold nanoparticles. J. Cluster Sci., 30: 403-414.
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15. Taha, A.A., S.M.H. AL-Jawad and A.M. Redha, 2019. Preparation and characterization of nanostructure cus for biological activity. Mod. Phys. Lett. B, 10.1142/s0217984919503743.
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16. Al-Jawad, S.M.H., S.H. Sabeeh, A.A. Taha and H.A. Jassim, 2019. Synthesis and characterization of fe-zno thin films for antimicrobial activity. Surf. Rev. Lett., 10.1142/s0218625x18501974.
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17. AL-Jawad, S.M.H., A.A. Taha and A.M. Redha, 2019. Studying the structural, morphological, and optical properties of cus:ni nanostructure prepared by a hydrothermal method for biological activity. J. Sol-Gel Sci. Technol., 91: 310-323.
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18. AL-JAWAD, S.M.H., O.N. SALMAN and N.A. YOUSIF, 2019. Influence of growth time on structural, optical and electrical properties of TiO₂ nanorod arrays deposited by hydrothermal method. Surface Rev. Lett., 10.1142/s0218625x1850155x.
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19. Al-Jawad, S.M.H., O.N. Salman and N.A. Yousif, 2018. Influence of titanium tetrachloride concentration and multiple growth cycles of TiO₂ nanorod on photoanode performance in dye sensitized solar cell. Photonics Nanostruct. - Fundam. Appl., 31: 81-88.
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20. AL-Jawad, S.M.H., S.H. Sabeeh, A.A. Taha and H.A. Jassim, 2018. Studying structural, morphological and optical properties of nanocrystalline ZnO:Ag films prepared by sol-gel method for antimicrobial activity. J. Sol-Gel Sci. Technol., 87: 362-371.
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21. Selma M.H. Al-Jawad, Abdulhussain K. Elttayf, and Amel S. Sabr, 2017. Studying structural, optical, electrical, and sensing properties of nanocrystalline SnO₂ :Cu films prepared by sol-gel method for CO gas sensor application at low temperature. Surf. Rev. Lett., 10.1142/S0218625X17501104.
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22. Rafic, S.N., S.M.H. Al-Jawad and M.M. Mustafa, 2017. Synthesized and study the structural and morphological properties of polyaniline-cadmium sulfide nanocomposite. J. Al-Nahrain Univ., 20: 91-98.
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23. Al-Zuhery, A.M., S.M. Al-Jawad and A.K. Al-Mousoi, 2017. The effect of PbS thickness on the performance of CdS/PbS solar cell prepared by CSP. Optik - Int. J. Light Electron Opt., 130: 666-672.
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24. Al-Jawad, S.M.H., N.R. Sewench and M.M. Mustafa, 2017. Preparation and characterization of polyaniline-cadmium sulfide nanocomposite for gas sensor application. Mod. Phys. Lett. B, 10.1142/S0217984917502347.
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25. Al-Jawad, S.M.H., M.R. Mohammad and N.J. Imran, 2017. Immersion time and annealing temperature effect on TiO₂ thin films deposited by hydrothermal method. J. Al-Nahrain Univ., 20: 67-76.
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26. Al-Jawad, S.M.H., M.R. Mohammad and N.J. Imran, 2017. Effect of electrolyte solution on structural and optical properties of TiO₂ grown by anodization technique for photoelectrocatalytic application. Surf. Rev. Lett.,25 10.1142/S0218625X18500786.
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27. Al-Jawad, S.M.H., M.I. Mukhlis and E. Sora, 2017. Characterization of Mn, Cu, and (Mn, Cu) co-doped ZnS nanoparticles. J. Opt. Technol., 84: 495-499.
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28. Al-Jawad, S.M.H., K.E. Abdulhussain and S.S. Amel, 2017. Influence of annealing temperature on the characteristics of nanocrystalline SnO₂ thin films produced by Sol-Gel and chemical bath deposition for gas sensor applications. Surf. Rev. Lett., 10.1142/S0218625X17501049.
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29. Al-Jawad, S.M.H., 2017. Influence of multilayer deposition on characteristics of nanocrystalline SnO₂ thin films produce by sol-gel technique for gas sensor application. Optik - Int. J. Light Electron Opt., 146: 17-26.
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30. Al-Jawad, S.M.H., 2017. Comparative study between CBD and SILAR methods for deposited TiO₂, CdS, and TiO₂/CdS core-shell structure. Mater. Sci. Semicond. Process., 67: 75-83.
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31. AL-Jawad, S.M.H., A.T. Ali and M.S. Mohammed, 2017. Synthesis and characterization of pure and Fe doped TiO₂ thin films for antimicrobial activity. Optik - Int. J. Light Electron Opt., 142: 42-53.
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32. AL-Jawad, S.M.H., 2017. Structural and optical properties of core-shell TiO₂/CdS prepared by chemical bath deposition. J. Electron. Mater., 46: 5837-5847.
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33. Mousa, A.M., S.M.H. Al-Jawad and K.O. Noor, 2016. Effect of changing substrate temperature of PbI₂ thin films deposited by sprayed technique on the structural, optical, and electrical properties. J. Coll. Basic Educ., 22: 490-498.
34. Al-Jawad, S.M.H., M.I. Mukhlis and E. Sora, 2016. Effect of hydrothermal reaction temperatures on structural and optical properties of ZnS nanoparticles. Eng. Technol. J., 34: 186-197.
35. Al-Jawad, S.M.H., K.E. Abdulhussain and S.S. Amel, 2016. The effect of annealing temperature on structural and optical properties of nanocrystalline SnO₂ thin films prepared by Sol-Gel technique. Eng. Technol. J., 34: 490-498.
36. Al-Jawad, S.M.H., K.E. Abdulhussain and S.S. Amel, 2016. Doping effect on structure, optical and sensing properties of nanocrystalline (SnO₂) thin films prepared by chemical bath deposition (CBD) technique. Eng. Technol. J., 34: 186-197.
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37. Al-Jawad, S.M.H., 2016. Influence of cadmium doping on structural, optical, electrical and photocatalytic properties of TiO₂ thin films prepared by spray pyrolysis technique. J. Phys. Sci. Appl., 6: 156-165.
38. Al-Jawad, S.M.H., S.D.M. Al-Algawi and K.K. Wafaa, 2015. Characterization of laser-ablated nanostructured Al₂O₂/p-solar cell. Iraqi J. Appl. Phys., 11: 29-32.
39. Al-Jawad, S.M.H., H.A. Fadheela and H.K. Jabbar, 2015. Preparation and characterization of tin oxide thin films by using spray pyrolysis technique. Eng. Technol. J., 33: 528-538.
40. Al-Jawad, S.M.H., 2015. Annealing effect on structure and optical properties of ZnO thin films prepared by spray pyrolysis. Eng. Technol. J., 33: 160-171.
41. Al-Algawi, S.D.M., S.M.H. Al-Jawad and M.S. Noor, 2015. Physical properties of indium tin oxide (ITO) nanopartical thin films used as gas sensor. Eng. Technol. J., 33: 141-151.
42. Mousa, A.M., S.M.H. Al-Jawad and S. Mohmoed, 2014. Effect of deposition parameters on kinematics growth and optical properties of PbS nano films deposited by chemical bath deposition. Int. Lett. Chem. Phys. Astron., 15: 1-10.
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43. Mous, A.M., S.M.H. Al-Jawad and S.M.K. Al-Shammari, 2014. Structural and optical properties evolution of ‘fused’ multilayer Nano PbS thin films deposited by chemical bath deposition. Int. Lett. Chem. Phys. Astron., 6: 16-25.
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44. Ismail, R.A., S.M.H. Al-Jawad and H. Naba, 2014. Preparation of n-ZnO/p-Si solar cells by oxidation of zinc nanoparticles: effect of oxidation temperature on the photovoltaic properties. Appl. Phys. A, 117: 1977-1984.
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45. Al-Jawad, S.M.H., 2014. Optoelectronic characteristics and optical properties for Cd_1-xMn_xS nanocrystalline thin films prepared by chemical bath deposition. Int. J. Appl. Innovation Eng. Manag., 3: 329-333.
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46. Al-Jawad, S.M.H., 2014. Effect of doping on structural and electrical properties of titanium dioxide (TiO₂) thin films for gas sensor. Int. J. Sci. Eng. Res., 5: 2171-2176.
47. Al-Jawad, S.M.H and Y.A. Zahraa, 2014. Study of structural, optical and electrical properties for Cr-Doped TiO₂ Sensor for NH₃ Gas. Eng. Technol. J., 32: 1137-1145.
48. Mousa, A.M., S.M.H. Al-Jawad and S.M.K. Al-shammari, 2013. Structural and optical characterization of nanocrystalline Pbs thin films synthesized by CBD method. Engi. Technol. J., 31: 603-612.
49. Mous, A.M., S.M.H. Al-Jawad and S.M.K. Al-Shammari, 2013. Synthesis and study of the structural and electrical conductivity for nanocrystalline PBS thin films. Eng. Technol. J., 31: 714-719.
50. Mous, A.M., S.M.H. Al-Jawad and S.M.K. Al-Shammari, 2013. Performance of a nanostructure PbS/Si hetrojunction detector deposited by CBD. Int. J. Semicond. Sci. Technol., 3: 11-18.
51. Al-Jawad, S.M.H and K.J.A. Hadia, 2013. Effect of deposition temperature and Ph value on structure, optical and electrical properties of CdO prepared by CBD. Eng. Technol. J., 31: 194-215.
52. Al-Jawad, S.M.H and H.A. Fadheela, 2013. Kinetics of growth and structural characterization of Cd1-xZnxS thin films synthesized by CBD method. Eng. Technol. J., 31: 505-519.
53. Mousa, A.M., J.H. Adawiya and S.M.H. Al-Jawad, 2011. Optical properties of nanostructure in CdS at different condition bath deposition. J. Mater. Sci. Eng., 5: 184-190.
54. Al-Jawad, S.M.H., A.F.S. Al-shareefi and K.J. Abdulhadi, 2011. Effect of thickness on optical and electrical properties of ZnO prepared by CBD. Iraqi J. Appl. Phys., 7: 11-16.
55. Al-Jawad, S.M.H and K.J.A. Hadia, 2011. Investigation of optical and electrical properties of chemically deposited nano-crystalline CdO thin film. J. Coll. Basic Educ., 17: 75-88.
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56. Mousa, A.M., J.H. Adawiya and Selma M.H. Al-Jawad, 2009. Properties and characterization of nanostructure high efficient CdS/Si Hetrojunction by CBD. Iraqi J. Phys., 7: 113-122.
57. Al-Jawad, S.M.H., S.A. Zahra`a and A.T. Wessal, 2009. Optical properties of annealing cadmium sulfide (CdS) thin films prepared by chemical bath deposition. Iraqi J. Appl. Phys. Lett., 2: 19-22.
58. Al-Jawad, S.M.H., 2009. Studies on solution - growth thin films of CdS : Zn for photovoltaic application. Um Salama Sci. J., 6: 135-140.
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59. Al-Jawad, S.M.H., 2009. Effect of pH value on the photoconductivity of chemically deposited CdS thin films. Iraqi J. Appl. Phys. Lett., 2: 23-26.
60. Al-Jawad, S.M.H., 2009. Effect of bath temperature on the optoelectronic characteristics of chemically deposited CdS thin films. Iraqi J. Appl. Phys. Lett., 5: 23-26.
61. Al-Jawad, S.M.H., 2009. Determined of parameters effected the sensitivity and lower limit of detection of XRF -WDS analysis of different metals particle suspended in engine oil. J. Kirkuk Univ. Sci. Stud., 4: 12-19.
62. Al-Jawad, S.M.H and M.M. Ali, 2009. Analysis of linearity response and spectral responsivity in CdS photoconductive detector. Eng. Technol. J., 27: 584-591.
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63. Al-Jawad, S.M.H and K.J.A. Hadia, 2009. Growth kinetics of chemically deposited CdO thin films. Eng. Technol. J., 27: 2335-2344.
64. Haider, A.J., M.M. Ali and S.M.H. Al-Jawad, 2008. Annealing effect on structure, electrical and optical properties of CdS films prepared by CBD Method. J. Semicond. Technol. Sci., 8: 326-332.
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65. Al-Jawad, S.M.H., M.M. Ali and A.T. Wessal, 2008. Investigation of optical properties of cadmium sulfide (CdS) thin films by chemical bath deposition. Um Salama Sci. J., 6: 150-162.
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66. Abdulhadi, K.J., A.S. Zareh and S.M.H. Al-Jawad, 2008. X- Ray Radiography of alumina to kovar joining. Eng. Technol. J., 26: 520-527.
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67. Hamadi, O.A., S.M.H. Al-Jawad, A.K.H. Aseel and O.M. Rana, 2007. Normalized characteristics of laser-induced diffusion of arsenic dopants in silicon. Eng. Technol. J., 25: 584-590.
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68. Al-Jawad, S.M.H., O.M. Rana and H. Ammar, 2007. Design modulation circuit for semiconductor laser pulse using in optical communication. Al Nahrain Univ. J., 10: 28-35.
69. Al-Jawad, S.M.H., A.H. Odey and I.A. Rania, 2006. Analytical modeling to enhance electric field measurement using optical fiber sensor. Um Salama Sci. J., 3: 242-245.
70. Al-Jawad, S.M.H., 2001. Study reflection from moving target. Eng. Technol. J., 20: 75-83.
71. Al-Jawad, S.M.H., 2000. The heterodyne signal frequency band width measurement. Eng. Technol. J., 21: 889-898.