| 12-مارس-24 | US17/210,397 | US11925666B2 | Bee venom nanoparticles | Bee venom nanoparticles and methods of synthesizing bee venom nanoparticles are provided. The bee venom nanoparticles may be synthesized by drying bee venom, suspending the dried bee venom in a solvent to form a first bee venom solution, spraying the first bee venom solution into boiling water under ultrasonic conditions to form a bee venom solution including the bee venom nanoparticles, stirring the bee venom solution including the bee venom nanoparticles, and freeze-drying the bee venom solution. The resulting nanoparticles may be used in pharmaceutical compositions, and may be useful for their antimicrobial activities. | Reem Atta AlajmiNadin Mohamed MoubayedManal Ahmed Gasmelseed AwadHany Mohamed YehiaManal Fawzy ElkhadragyIbrahim Abdullah BarakatFaten Nasser AlsaqabiAmany Zein Elabedein Mahmoud Elshahidy | Chemistry/Nanoparticles | A61K35/64 |
| 27-أغسطس-24 | US18/380,763 | US12070737B1 | Synthesis of amino-rich mesoporous silica nanoparticles for removal of heavy metal and uranium cations | Amino-rich anionic mesoporous silica (AMS) nanoparticles prepared through adding two different types of co-structuring directing agent (CSDA) molecules, thus increasing the amino amount within the AMS together with preserving ordered porous structure. Further boosting of amino amount can be accomplished through linking three different CSDA molecules together. Amino-functionalized mesoporous silica can be obtained with high amino amounts with linking either double or triple CSDA molecules while preserving ordered mesoporous structure and high textural properties. | Ahmed Eltoni Mohamed Ali Eltoni, Mohamed Abdelaty Habila, Joselito Puzon Labis, Ali Kanakhr Aldalbahi, Asharf Elsayed Khater, Huda Saad Alnafie | Chemistry/Nanoparticles | B01J20/28071 |
| 05-نوفمبر-24 | US18/583,453 | US12133863B1 | Green synthesis of silver nanoparticles encapsulated in a nanostructured lipid carrier | Green methods of synthesis of silver nanoparticles. Once the silver nanoparticles are obtained, methods of encapsulating these nanoparticles in a nanostructured lipid carrier are further contemplated. Once the encapsulated silver nanoparticles are formed, they can be used for various methods of treatment, including treating microbial infections, treating bacterial infections, and promoting wound healing. | Manal Ahmed Awad, Khalid Mustafa Ortashi, Ali Kanakhr Aldalbahi | Chemistry/Nanoparticles | A61P31/04 |
