МИС ФТАЛОЦИАНИН ПИГМЕНТИНИ ТАЙЁРЛАШ: ЖАРАЁН ПАРАМЕТРЛАРИ ВА КИНЕТИК ТАҲЛИЛ
Abstract
Ushbu tadqiqot mis ftalotsianinni sulfat kislota muhitida eritib, mis ftalotsianin pigmenti olish jarayonini o‘rganishga bag‘ishlangan. Mis ftalotsianin (CuPc) yuqori barqarorlik va kimyoviy chidamlilikka ega bo‘lib, u pigment va bo‘yoq sanoatida muhim ahamiyat kasb etadi. Eksperimental ishda mis ftalotsianin sulfat kislota muhitida eritilib, pigment hosil bo‘lish jarayoni harorat (30–60°C) va reaksiya vaqti (60–180 daqiqa) bo‘yicha o‘rganildi. Kinetik tahlil natijalari shuni ko‘rsatdiki, harorat oshishi va reaksiya vaqtining uzayishi pigment hosil bo‘lish jarayoniga sezilarli ta’sir ko‘rsatadi. 50°C harorat va 150 daqiqa davomida olingan pigment eng yuqori modifikatsiya darajasiga ega bo‘ldi. Biroq, 60°C dan yuqori haroratda pigmentning qisman degradatsiyasi kuzatildi. Tadqiqot natijalari mis ftalotsianin pigmentini olish jarayonining optimal sharoitlarini aniqlashga yordam beradi va sanoat miqyosida pigment ishlab chiqarish jarayonlarini takomillashtirish uchun ilmiy asos bo‘lib xizmat qiladi.
About the Authors
List of references
Ijaz I. et al. Detail review on chemical, physical and green synthesis, classification, characterizations and applications of nanoparticles //Green chemistry letters and reviews. – 2020. – T. 13. – №. 3. – S. 223-245.
Deng D. et al. Role of “post-coordination interaction” boosted performance of rare-earth based MOFs derived catalyst for hydrogenation-alkylation cascade reaction //Molecular Catalysis. – 2025. – T. 572. – S. 114735.
Fu R. et al. Recent advance in metal-organic frameworks based catalysts for production of fine chemicals via thermal catalysis //Molecular Catalysis. – 2025. – T. 573. – S. 114811.
Bilgin A., Yağcı Ç., Mendi A., Yıldız U, Synthesis and Characterization of New Polymeric Phthalocyanines Substituted with Diaza-18-crown-6 macrocycles through Ethyleneoxy Bridges, Polyhedron, 2007, 26, 617-625.
Derradji M. et al. Mechanical and thermal properties of phthalonitrile resin reinforced with silicon carbide particles //Materials & Design. – 2015. – T. 71. – S. 48-55.
Dzhardimalieva G. I., Uflyand I. E. Design strategies of metal complexes based on chelating polymer ligands and their application in nanomaterials science //Journal of Inorganic and Organometallic Polymers and Materials. – 2018. – T. 28. – S. 1305-1393.
Meng Z. et al. Electrically-transduced chemical sensors based on two-dimensional nanomaterials //Chemical reviews. – 2019. – T. 119. – №. 1. – S. 478-598.
Daliran S. et al. Metal–organic framework (MOF)-, covalent-organic framework (COF)-, and porous-organic polymers (POP)-catalyzed selective C–H bond activation and functionalization reactions //Chemical Society Reviews. – 2022. – T. 51. – №. 18. – S. 7810-7882.
Nie Z. et al. Two-dimensional FePc and MnPc monolayers as promising materials for SF6 decomposition gases detection: Insights from DFT calculations //Applied Surface Science. – 2023. – T. 608. – S. 155119.
Bisoyi H. K., Li Q. Liquid crystals: versatile self-organized smart soft materials //Chemical reviews. – 2021. – T. 122. – №. 5. – S. 4887-4926.
Muñoz-García A. B. et al. De-sensitized solar cells strike back //Chemical Society Reviews. – 2021. – T. 50. – №. 22. – S. 12450-12550.
How to Cite
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.