| Type of Material: | Thesis |
| Title: | Interface Engineering in Nano Zinc Oxide Rendering Visible Light Photocatalysis and Photoelectrochemical Hydrogen Generation Insights into Effective Charge Separation by Carbon Doping and Graphene Hybridization |
| Researcher: | Louis, Jesma |
| Guide: | John, Honey |
| Department: | Department of Polymer Science and Rubber Technology |
| Publisher: | Cochin University of Science & Technology, Cochin |
| Place: | Cochin |
| Year: | 2023 |
| Language: | English |
| Subject: | Engineering and Technology | Interface Engineering | Material Science | Photocatalytic Pollutant Degradation | Photoelectro Catalytic Hydrogen Evolution | Zincoxide | 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 | 00000ctm a2200000ua 4500 | |
| 001 | 456293 | |
| 003 | IN-AhILN | |
| 005 | 2024-10-09 10:47:05 | |
| 008 | __ | 241009t2023||||ii#||||g|m||||||||||eng|| |
| 035 | __ | |a(IN-AhILN)th_456293 |
| 040 | __ | |aCUST_682022|dIN-AhILN |
| 041 | __ | |aeng |
| 100 | __ | |aLouis, Jesma|eResearcher |
| 110 | __ | |aDepartment of Polymer Science and Rubber Technology|bCochin University of Science & Technology, Cochin|dCochin|ein|0U-0253 |
| 245 | __ | |aInterface Engineering in Nano Zinc Oxide Rendering Visible Light Photocatalysis and Photoelectrochemical Hydrogen Generation Insights into Effective Charge Separation by Carbon Doping and Graphene Hybridization |
| 260 | __ | |c2023|aCochin|bCochin University of Science & Technology, Cochin |
| 300 | __ | |dDVD|axxvii,288 |
| 502 | __ | |bPhD|cDepartment of Polymer Science and Rubber Technology, Cochin University of Science & Technology, Cochin, Cochin|d2023 |
| 518 | __ | |oDate of Award|d2024 |
| 518 | __ | |oDate of Registration|d2018 |
| 520 | __ | |aWith rapid industrialization and fast growing population, the world is confronted with energy shortage and environmental pollution. The need to develop economically feasible strategies to address these very alarming problems remains extremely important. Recent advancements in nanomaterials provide insights into the development of facile environmental friendly methodologies to tackle the profound issues efficiently. The effective utilization of solar energy for sustainable development has always been a world-wide research focus. Photocatalytic pollutant degradation and photoelectrocatalytic hydrogen evolution are emerging as advanced technology involves direct conversion of solar energy to chemical energy. The applicative potential of the metal oxide semiconductors has gained tremendous attention in this direction due to biocompatibility, novel properties, inexpensive and sustainable nature. Several promising metal oxide semiconductors such as TiO2, ZnO, Fe2O3, SnO2 etc. have been actively used for visible l |
| 650 | __ | |aMaterials Science|2UGC |
| 650 | __ | |aEngineering and Technology|2AIU |
| 653 | __ | |aEngineering and Technology |
| 653 | __ | |aInterface Engineering |
| 653 | __ | |aMaterial Science |
| 653 | __ | |aPhotocatalytic Pollutant Degradation |
| 653 | __ | |aPhotoelectro Catalytic Hydrogen Evolution |
| 653 | __ | |aZincoxide |
| 700 | __ | |aJohn, Honey|eGuide |
| 856 | __ | |uhttp://shodhganga.inflibnet.ac.in/handle/10603/554034|yShodhganga |
| 905 | __ | |afromsg |
User Feedback Comes Under This section.