과제정보
This study was supported by Sahmyook University research funding in Korea.
참고문헌
- C. H. Nguyen, C. C. Fu, and R. S. Juang, "Degradation of methylene bule and methyl orange by palladium-doped TiO2 photocatalysis for water reuse: Efficiency and degradation pathways", J. Clean. Prod., 202, 413 (2018).
- W. J. Zhou, H. Liu, G. J. Du, J. J. Lin, J. Y. Wang, and D. Liu, "One-dimensional single-crystalline Ti-O based nanostructures: properties, synthesis, modifications and applications", J. Mater. Chem., 20, 5993 (2010).
- S. R. Pouran, A. Bayrami, A. A. Aziz, W. M. A. W. Daud, and M. S. Shafeeyan, "Ultrasound and UV assisted Fenton treatment of recalcitrant wastewaters using transition metal-substituted-magnetite nanoparticles", J. Mol. Liq., 22, 1076 (2016).
- G. J. Yang, C. J. Li, S. Q. Fan, and J. C. Gao, "Influence of pore structure on ion diffusion property in porous TiO2 coating and photovoltaic performance of dye-sensitized solar cells", Surf. Coat. Tech., 205, 3205 (2011).
- A. Ajmala, I. Majeedb, R. N. Malika, H. Idrissc, and M. A. Nadeem, "Principles and mechanisms of photocatalytic dye degradation on TiO2 based photocatalysts: A comparative overview", RSC Adv., 4, 37003 (2014).
- N. Ghows and M. H. Entezari, "Kinetic investigation on sono-degradation of Reactive Black 5 with core-shell nanocrystal", Ultrason. Sonochem., 20, 386 (2013).
- V. K. Gupta, R. Jain, T. A. Saleh, A. Nayak, S. Malathi, and S. Agarwal, "Equilibrium and thermodynamic studies on the removal and recovery of Safranine-T dye from industrial effluents", Sep. Sci. Technol., 46, 839 (2011).
- S. R. Pouran, A. A. Aziz, W. M. A. W. Daud, and Z. Embong, "Niobium substituted magnetite as a strong heterogeneous Fenton catalyst for wastewater treatment", Appl. Surf. Sci., 351, 175 (2015).
- M. Cheng, G. M. Zeng, D. L. Huang, C. Lai, Y. Liu, C. Zhang, J. Wan, L. Hu, C. Y. Zhou, and W. P. Xiong, "Efficient degradation of sulfamethazine in simulated and real wastewater at slightly basic pH values using Co-SAM-SCS/H2O2 Fenton-like system", Water Res., 138, 7 (2018).
- A. Khataee, A. Karimi, A. Hasanzadeh, and S. W. Joo, "Kinetic modeling of sonocatalytic performance of Gd-doped CdSe nanoparticles for degradation of Acid Blue 5", Ultrason. Sonochem., 39, 344 (2017).
- J. Lv, L. L. Su, H. Wang, L. J. Liu, G. Q. Xu, D. M. Wang, Z. X. Zheng, and Y. C. Wu, "Enhanced visible light photocatalytic activity of TiO2 nanotube arrays modified with CdSe nanoparticles by electrodeposition method", Surf. Coat. Tech., 242, 20 (2014).
- A. Rahdar, H. A. Eivari, and R. Sarhaddi, "ZnS: Mn-SPP semiconductor nanocrystals: Synthesis and optical and structural characterization", Indian J. Sci. Technol., 5, 1855 (2012).
- G. S. Li, D. Q. Zhang, and J. C. Yu, "A new visible-light photocatalyst: CdS quantum dots embedded mesoporous TiO2", Sci. Technol., 43, 7079 (2009).
- T. Ghosh, K. Ullah, V. Nikam, C. Y. Park, Z. D. Meng, and W. C. Oh, "The characteristic study and sonocatalytic performance of CdSe-graphene as catalyst in the degradation of azo dyes in aqueous solution under dark conditions", Ultrason. Sonochem., 20, 768 (2013).
- A. Majid, H. Arshad, and S. Murtaza, "Synthesis and characterization of Cr doped CdSe nanoparticles", Superlattice. Microst., 85, 620 (2015).
- A. S. Mansour, A. S. Gadallah, A. S. A. Sherbini, T. Youssef, and M. B. Mohamed, "Photoluminescence and photocatalysis of CdSe tetrapods seeded by Au nanoparticles", J. Mol. Struct., 1149, 626 (2017).
- A. G. Milekhin, L. L. Sveshnikova, T. A. Duda, E. E. Rodyakina, V. M. Dzhagan, E. Sheremet, O. D. Gordan, C. Himcinschi, A. V. Latyshev, and D. R. T. Zahn, "Resonant surface-enhanced Raman scattering by optical phonons in a monolayer of CdSe nanocrystals on Au nanocluster arrays", Appl. Surf. Sci., 370, 410 (2016).
- N. T. N. Truong, K. T. Trinh, V. T. H. Pham, C. D. Kim, and C. Park, "Synthesis and thermal annealing treatment of octylphosphonic acid-capped CdSe-tetrapod nanocrystals for bulk hetero-junction solar cell applications", Korean J. Chem. Eng., 32, 761 (2015).
- X. W. Wang, C. X. Zhou, W. Y. Wang, B. Du, J. X. Cai, G. Feng, and R. B. Zhang, "CdSe nanoparticle-sensitized ZnO sheets for enhanced photocatalytic hydrogen evolution rates", J. Alloy. Comp., 747, 826 (2018).
- A. R. Khataee, S. Fathinia, M. Fathinia, Y. Hanifehpour, S. W. Joo, and B. Soltani, "Synthesis, characterization and photocatalytic properties of nanostructured Sm-doped CdSe", Curr. Nanosci., 9, 780 (2013).
- T. Ghosh, J. H. Lee, Z. D. Meng, K. Ullah, C. Y. Park, V. Nikam, and W. C. Oh, "Graphene oxide based CdSe photocatalysts: synthesis, characterization and comparative photocatalytic efficiency of rhodamine B and industrial dye", Mater. Res. Bull., 48, 1268 (2013).
- O. S. Oluwafemi, N. Revaprasadu, and O. O. Adeyemi, "A new synthesis of hexadecylamine-capped Mn-doped wurtzite CdSe nanoparticles", Mater. Lett., 64, 1513 (2010).
- Selvaraj, and M. Munisamy, "Synthesis, photocatalytic activities and reusability of Eu-ZnO-Ag nanoparticles using sunlight/LEDs illuminations", Asian J. Chem., 31, 813 (2019).
- T. A. Saleh and V. K. Gupta, "Photo-catalyzed degradation of hazardous dye methyl orange by use of a composite catalyst consisting of multi-walled carbon nanotubes and titanium dioxide", J. Colloid Interf. Sci., 371, 101 (2012).
- J. Li, J. W. Ko, and W. B. Ko, "Synthesis of SnO2-Mn-C60 nanocomposites and their photocatalytic activity for degradation of organic dyes", Elast. Compos., 52, 287 (2017).
- J. Li and W. B. Ko, "Synthesis of ZnS:Mn-Gly-C60 nanocomposites and their photocatalytic activity of Brilliant Green", Elast. Compos., 53, 75 (2018).
- A. Salem, E. Saion, N. M. A. Hada, H. M. Kamari, A. H. Shaari, C. A. C. Abdullah, and S. Radiman, "Synthesis and characterization of CdSe nanoparticles via thermal treatment technique", Results Phys., 7, 1556 (2017).
- I. Sondi, O. Siiman, and E. Matijevic, "Synthesis of CdSe nanoparticles in the presence of aminodextran as stabilizing and capping agent", J. Colloid Interf. Sci., 275, 503 (2004).
- E. Haritz, Z. Inaki, T. Agnieszka, E. Arantxa, K. Galder, and M. Inaki, "Functionalisation of CdSe semiconductor nanoparticles with polystyrene brushes by radical polymerization", J. Nanosci. Nanotechno., 13, 643 (2013).
- B. T. Suo, X. Su, J. Wu, D. Chen, A. Wang, and Z. H. Guo, "Poly (vinyl alcohol) thin film filled with CdSe-ZnS quantum dots: fabrication, characterization and optical properties", Mater. Chem. Phys., 119, 237 (2010).
- J. V. Williams, C. N. Adams, N. A. Kotov, and P. E. Savage, "Hydrothermal synthesis of CdSe nanoparticles", Ind. Eng. Chem. Res., 46, 4358 (2007).
- D. M. Han, C. F. Song, and X. Y. Li, "Synthesis and fluorescence property of Mn-doped ZnSe nanowires", J. Nanomater., 290763 (2010).
- K. Vimalanathan, R. G. Shrestha, Z. Zhang, J. Zou, T. Nakayama, and C. L. Raston, "Surfactant-free fabrication of fullerene C60 nanotubules under shear", Angew. Chem. Int. Edit., 56, 8389 (2017).
- J. B. Kimbrell, C. M. Crittendent, W. J. Steward, F. A. Khan, A. C. G. Parker, and D. A. Stuart, "Analysis of mixtures of C60 and C70 by Raman spectrometry", Nanosci. Method., 13, 40 (2014).
- A. D. Reisel, U. Ritter, J. Moje, E. Freiberger, and P. Scharff, "Effect of fullerene C60 thermal and tribomechanical loading on Raman signals", Diam. Relat. Mater., 126, 109036 (2022).