| Type of Material: | Thesis |
| Title: | Design and Synthesis of Biocompatible Fluorescent Organic Inorganic Hybrid Materials from Naturally Derived Lawsone Isolated from Henna and Comparative Performance Evaluation with Synthetic Lawsone for Controlled Drug Delivery Sensing and Cellular Imaging Applications |
| Researcher: | Sirajunnisa, P |
| Guide: | Sailaja, G S |
| Department: | Department of Polymer Science and Rubber Technology |
| Publisher: | Cochin University of Science & Technology, Cochin |
| Place: | Cochin |
| Year: | 2023 |
| Language: | English |
| Subject: | Cellular Imaging | Drug Delivery System ... | Engineering and Technology | Lawsonia Inermis | Materials Science Paper and Wood | Multifunctional materials | Sensing, Imaging and Drug delivery | Materials Science | Engineering and Technology |
| Dissertation/Thesis Note: | PhD; Department of Polymer Science and Rubber Technology, Cochin University of Science & Technology, Cochin, Cochin; 2023 |
| Fulltext: | Shodhganga |
| 000 | 00000ntm a2200000ua 4500 | |
| 001 | 456285 | |
| 003 | IN-AhILN | |
| 005 | 2024-10-08 17:56:26 | |
| 008 | __ | 241008t2023||||ii#||||g|m||||||||||eng|| |
| 035 | __ | |a(IN-AhILN)th_456285 |
| 040 | __ | |aCUST_682022|dIN-AhILN |
| 041 | __ | |aeng |
| 100 | __ | |aSirajunnisa, P|eResearcher |
| 110 | __ | |aDepartment of Polymer Science and Rubber Technology|bCochin University of Science & Technology, Cochin|dCochin|ein|0U-0253 |
| 245 | __ | |aDesign and Synthesis of Biocompatible Fluorescent Organic Inorganic Hybrid Materials from Naturally Derived Lawsone Isolated from Henna and Comparative Performance Evaluation with Synthetic Lawsone for Controlled Drug Delivery Sensing and Cellular Imaging Applications |
| 260 | __ | |aCochin|bCochin University of Science & Technology, Cochin|c2023 |
| 300 | __ | |axxx,335|dDVD |
| 502 | __ | |cDepartment of Polymer Science and Rubber Technology, Cochin University of Science & Technology, Cochin, Cochin|d2023|bPhD |
| 518 | __ | |d2024|oDate of Award |
| 518 | __ | |oDate of Registration|d2018 |
| 520 | __ | |aMultifunctional materials, having the ability to combine multiple functions into a single system, are of increasing importance these days, typically with the feasibility of adjoining drug delivery, sensing, and bioimaging. Consequently, such systems would deliver drugs at a particular site of interest in the body along with simultaneous imaging of the aforementioned site, and hence a real-time feedback of the effectiveness of the treatment could be performed. Such a system would render targeted and more precise treatments, offering better patient outcomes with minimal side effects. Conventional materials face significant limitations, including inadequate targeting, instability, low drug loading capacity, unpredictable release rates, non-biodegradability, limited sensing and imaging capabilities, photobleaching, minimal biocompatibility, and high costs, which hamper their effectiveness and utility. This has spurred interest in the development of novel multifunctional materials, and this research is aimed at |
| 650 | __ | |aMaterials Science|2UGC |
| 650 | __ | |aEngineering and Technology|2AIU |
| 653 | __ | |aCellular Imaging |
| 653 | __ | |aDrug Delivery System ... |
| 653 | __ | |aEngineering and Technology |
| 653 | __ | |aLawsonia Inermis |
| 653 | __ | |aMaterials Science Paper and Wood |
| 653 | __ | |aMultifunctional materials |
| 653 | __ | |aSensing, Imaging and Drug delivery |
| 700 | __ | |eGuide|aSailaja, G S |
| 856 | __ | |uhttp://shodhganga.inflibnet.ac.in/handle/10603/558984|yShodhganga |
| 905 | __ | |afromsg |
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