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Patel, J. D., Mighri, F., Ajji, A., & Chaudhuri, T. K. (2015). Development of CdS nanostructures by thermal decomposition of aminocaproic acid-mixed Cd-thiourea complex precursor: Structural, optical and photocatalytic characterization. Journal of Nanoscience and Nanotechnology, 15(4), 2733-2741. Lien externe
Patel, J. D., Mighri, F., & Ajji, A. (2014). A facile route towards the preparation of ZnSe nanocrystals. Materials Letters, 131, 366-369. Lien externe
Patel, J. D., Mighri, F., & Ajji, A. (2012). Aminocaproic Acid Mixed Methanolic Lead-Thiourea Complex Precursor and Its Thermal Decomposition to Star-Shaped Lead Sulfide Crystals. Materials Letters, 74, 183-186. Lien externe
Patel, J. D., Mighri, F., & Ajji, A. (2012). Generalized Chemical Route to Develop Fatty Acid Capped Highly Dispersed Semiconducting Metal Sulphide Nanocrystals. Materials Research Bulletin, 47(8), 2016-2021. Lien externe
Patel, J. D., Mighri, F., Ajji, A., & Chaudhuri, T. K. (2012). Morphology and Size Control of Lead Sulphide Nanoparticles Produced Using Methanolic Lead Acetate Trihydrate-Thiourea Complex Via Different Precipitation Techniques. Materials Chemistry and Physics, 132(2-3), 747-755. Lien externe
Patel, J. D., Mighri, F., Ajji, A., & Elkoun, S. (2012). Room Temperature Synthesis of Aminocaproic Acid-Capped Lead Sulphide Nanoparticles. Materials Sciences and Applications, 03(02), 125-130. Lien externe
Patel, J. D., Mighri, F., & Ajji, A. (2011). Rapid synthesis of highly dispersed and stable oleic acid capped lead sulphide nanoparticles. Advanced Science Letters, 4(11/12), 3644-3648. Lien externe
