Subject Areas : Research On Surface Engineering and Nanomaterials Science
محسن چراغی زاده
1
,
فرید جمالی شینی
2
1 - مرکز تحقیقات مهندسی سطح پیشرفته و نانو مواد، گروه مهندسی برق، واحد اهواز، دانشگاه آزاد اسلامی، اهواز، ایران
2 - مرکز تحقیقات مهندسی سطح پیشرفته و نانو مواد، گروه فیزیک، واحد اهواز، دانشگاه آزاد اسلامی، اهواز، ایران
Keywords:
Abstract :
[1] م. رستمی، ر. امینی، بررسی اثر اصلاح سطحی نانو ذرات آلومینا با وینیل سیلان بر خواص فیزیکی مکانیکی رزین وینیل استر, علوم و فناوری رنگ، 10 (1395) 233-246.
[2] م. ترابی انگجی، ل. اصغرنژاد، ف. ملکی، و. گودرزی، بررسی تاثیر اصلاح سطحی نانوذرات TiO2 بر روی خواص نانوکامپوزیت UP/TiO2، نانومواد، 3 (2011) 1-7.
[3] C.R. Vandenabeele, S. Lucas, Technological challenges and progress in nanomaterials plasma surface modification – A review, Materials Science and Engineering: R: Reports, 139 (2020) 100521.
[4] C. geor malar, M. Seenuvasan, K.S. Kumar, A. Kumar, R. Parthiban, Review on surface modification of nanocarriers to overcome diffusion limitations: An enzyme immobilization aspect, Biochemical Engineering Journal, 158 (2020) 107574.
[5] M. Cheraghizade, F. Jamali-Sheini, P. Shabani, Annealing temperature of nanostructured SnS on the role of the absorber layer, Materials Science in Semiconductor Processing, 90 (2019) 120.
[6] D.G. Moon, S. Rehan, D.H. Yeon, S.M. Lee, S.J. Park, S. Ahn, Y.S. Cho, A review on binary metal sulfide heterojunction solar cells, Solar Energy Materials and Solar Cells, 200 (2019) 109963.
[7] T. Lange, S. Reichenberger, S. Ristig, M. Rohe, J. Strunk, S. Barcikowski, R. Schlögl, Zinc sulfide for photocatalysis: White angel or black sheep?, Progress in Materials Science, 124 (2022) 100865.
[8] M. Mohl, A.-R. Rautio, G.A. Asres, M. Wasala, P.D. Patil, S. Talapatra, K. Kordas, 2D Tungsten Chalcogenides: Synthesis, Properties and Applications, Advanced Materials Interfaces, n/a (2020) 20000.
[9] M. Cheraghizade, F. Jamali-Sheini, Photovoltaic behavior of SnS solar cells under temperature variations, Optik, 254 (2022) 168635.
[10] R.E. Banai, M.W. Horn, J.R.S. Brownson, A review of tin (II) monosulfide and its potential as a photovoltaic absorber, Solar Energy Materials and Solar Cells, 150 (2016) 112-129.
[11] N. Koteeswara Reddy, M. Devika, E.S.R. Gopal, Review on Tin (II) Sulfide (SnS) Material: Synthesis, Properties, and Applications, Critical Reviews in Solid State and Materials Sciences, 40 (2015) 359-398.
[12] ف. جمالی شینی، سولفید قلع، خواص پایه و کاربردها، سوره تماشا، 1398.
[13] J.A. Andrade-Arvizu, M. Courel-Piedrahita, O. Vigil-Galán, SnS-based thin film solar cells: perspectives over the last 25 years, Journal of Materials Science: Materials in Electronics, 26 (2015) 4541-4556.
[14] A.A. Khadayeir, F.A. Najim, A.H. Wanas, Modification in morphological, structural, photoluminescence and antibacterial properties of SnS and CdS thin films by cold plasma treatment, Chalcogenide Letters, 18 (2021).
[15] J. Andrade-Arvizu, M. Courel, M. García-Sánchez, R. González, D. Jimenez, I. Becerril-Romero, A. Ramirez, O. Vigil-Galán, Argon vs. air atmosphere in close spaced vapor transport deposited tin sulfide thin films, Solar Energy, 208 (2020) 335.
[16] P. Sinsermsuksakul, L. Sun, W. Lee Sang, H. Park Helen, B. Kim Sang, C. Yang, G. Gordon Roy, Overcoming Efficiency Limitations of SnS‐Based Solar Cells, Advanced Energy Materials, 4 (2014) 1400496.
[17] H.-Y. Cheng, O. Acar, W.Y. Shih, W.-H. Shih, Enhancing the photoluminescence of SnS quantum dots by ZnS treatment, Chemical Physics Letters, 754 (2020) 137696.
[18] W. Yang, J. Liu, X. Lai, Z. Zhang, B. Du, J. Wu, J. Jian, Self-confined vapour-liquid-solid growth of SnS/SiOx core/shell nanowires, Journal of Crystal Growth, 548 (2020) 125839.
[19] C. Prastani, M. Nanu, D. Nanu, R.E.I. Schropp, J.K. Rath, Synthesis of SnS/In2S3 core–shell nanoparticles, Chemical Physics Letters, 612 (2014) 306.
[20] F. Jamali‐Sheini, F. Niknia, M. Cheraghizade, R. Yousefi, R. Mahmoudian Mohammad, Broad Spectral Response of Se‐Doped SnS Nanorods Synthesized through Electrodeposition, ChemElectroChem, 4 (2017) 1478.
[21] S. Lavanya, T.R. Kumar, A.V. Juliet, J. Hakami, I.M. Ashraf, M. Shkir, Noticeable photo-sensing properties of SnS:Cu thin films fabricated by thermal evaporation technique, Solid State Sciences, 128 (2022) 106889.
[22] X. Guo, Y. Wang, A. Elbourne, A. Mazumder, C.K. Nguyen, V. Krishnamurthi, J. Yu, P.C. Sherrell, T. Daeneke, S. Walia, Y. Li, A. Zavabeti, Doped 2D SnS materials derived from liquid metal-solution for tunable optoelectronic devices, Nanoscale, 14 (2022) 6802.
[23] J.F. Serrano-Claumarchirant, A.M. Igual-Muñoz, M. Culebras, M.N. Collins, A. Cantarero, C.M. Gómez, Electrochemical Synthesis of Hybrid Layered Thermoelectric Materials Based on PEDOT/SnS Doped with Ag, Advanced Materials Interfaces, 8 (2021) 2100951.
[24] S.L. Mousavi, F. Jamali-Sheini, M. Sabaeian, R. Yousefi, Correlation of Physical Features and the Photovoltaic Performance of P3HT:PCBM Solar Cells by Cu-Doped SnS Nanoparticles, The Journal of Physical Chemistry C, 125 (2021) 15841.
[25] F. Jamali-Sheini, M. Cheraghizade, R. Yousefi, SnS nanosheet films deposited via thermal evaporation: The effects of buffer layers on photovoltaic performance, Solar Energy Materials and Solar Cells, 154 (2016) 49.
