Zahra Lasemi
Department of Chemistry, Firoozkooh branch, Islamic Azad University, Firoozkooh, Iran.
[ 1 ] - Nano silica sulfuric acid catalyzed synthesis of 2-substituted aryl (indolyl) kojic acid derivatives
Nano silica sulfuric acid as a solid acid, was described to be an effective catalyst for one-pot three-component reaction of kojic acid, aryl aldehydes and indoles for the preparation of 2-substituted aryl (indolyl) kojic acid derivatives. The catalyst was prepared by combination of chlorosulfonic acid to nano silica gel. The size of nanoparticles were observed with SEM.All prepared compounds w...
[ 2 ] - Nano-peanut shell-OSO3H: Green and natural-based renewable nanocatalyst for one-pot synthesis of dihydropyrano[3,2-b]chromenedione derivatives
Nano-peanut shell‑OSO3H nanoparticles were simply prepared and characterized by the scanning electron microscopy (SEM), transmission electron microscope (TEM), fourier transform infrared (FT-IR), energy dispersive X-ray spectroscopy (EDX), and thermal analysis techniques (TGA/DTG). The catalytic activity of nano-peanut shell‑OSO3H was studied in the synthesis of biological...
[ 3 ] - Nano silica sulfuric acid catalyzed synthesis of 2-substituted aryl (indolyl) kojic acid derivatives
Nano silica sulfuric acid as a solid acid, was described to be an effective catalyst for one-pot three-component reaction of kojic acid, aryl aldehydes and indoles for the preparation of 2-substituted aryl (indolyl) kojic acid derivatives. The catalyst was prepared by combination of chlorosulfonic acid to nano silica gel. The size of nanoparticles were observed with SEM.All prepared compounds w...
[ 4 ] - نانو ذرات تری فلورید بور تثبیت شده بر روی سیلیکا: کاتالیزور موثر و سبز برای سنتز تک ظرفی مشتقات پیرانو [2،3-d] پیریمیدین
نانو ذرات تری فلورید بور تثبیت شده بر روی سیلیکا (BF3.SiO2 NPs) تهیه و به عنوان یک کاتالیزور اسیدی ملایم و سبز در واکنش بین آلدئیدهای آروماتیک با اتیل سیانو استات و اسید باربیتوریک در اتانول برای سنتز مشتقات پیرانو [d-2،3] پیریمیدین استفاده شد. این واکنش به وضوح به وسیله نانو ذرات BF3.SiO2 پیش رفت و کاتالیزور ناهمگن برای سه بار در این واکنش بدون از دست دادن فعالیت کاتالیزوری خود، بازیافت شد. قا...
نویسندگان همکار