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TZID:Asia/Kolkata
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DTSTART:20220101T000000
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BEGIN:VEVENT
DTSTART;TZID=Asia/Kolkata:20231012T110000
DTEND;TZID=Asia/Kolkata:20231012T120000
DTSTAMP:20260421T092149
CREATED:20231011T040600Z
LAST-MODIFIED:20250526T131014Z
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SUMMARY:Towards Renewable and Sustainable Energy Storage Devices
DESCRIPTION:With the stellar increase in energy demands and the consequent crisis of environmental degradation\, there is a predominant need for sustainable renewable energy storage systems. To enlighten further on this matter\, The Department of Chemistry is organising a Guest Lecture on “Ultrathin\, 2D large area transition metal hydroxide film for charge storage and water splitting” by Dr Manav Saxena\, Centre for Nano & Material Sciences\, JAIN (Deemed-to-be University). The session is scheduled to be held on October 12\, 2023\, and will explicate the development of ultrathin charge storage devices as an alternate source of storage and conversion systems. \nJoin the session to learn more about the recent advancements in renewable energy storage systems! \nAbstract \nThe ever-increasing energy demands and growing environmental pollution have triggered enormous attention toward developing sustainable renewable energy storage and conversion systems. Large-area\, ultrathin two-dimensional (<20 nm) nanostructures of electrode material could be effective for electrochemical and electrocatalytic purposes due to their abundant active sites\, high specific surface area\, and ultrathin thickness\, which facilitates shortening the ion diffusion length. \nHowever\, small lateral size\, non-uniformity and defect formation during the synthesis hinder the device’s performance. To date\, very few endeavours have been made to synthesize large-area nanosheets. However\, the lateral size of this nanosheet is less than 1 mm and smaller than other 2D materials\, which generates fabrication challenges and consequently affects the performance of real devices. Herein\, we developed the ultrathin\, large-area\, freestanding\, and non-layered transition metal hydroxide (Co\, Ni\, Mo) nanosheet and its Van der Waals heterostructures grown at a water-air interface via an oven-based wet chemical synthesis method at low temperature. This work offers a competitive route towards a rational design and the development of ultrathin charge storage devices and high-performance OER electrocatalysts.
URL:https://events.srmap.edu.in/event/towards-renewable-and-sustainable-energy-storage-devices/
CATEGORIES:Departmental Events,Events
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BEGIN:VEVENT
DTSTART;TZID=Asia/Kolkata:20231012T113000
DTEND;TZID=Asia/Kolkata:20231012T123000
DTSTAMP:20260421T092149
CREATED:20231011T044700Z
LAST-MODIFIED:20250806T115736Z
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SUMMARY:Unravelling Mysteries of Gender-Specific Gene Regulation with Dr Prasanna Kumar
DESCRIPTION:Department of Biological Sciences is organising an insightful discourse into the fascinating world of Molecular Biology. The session will explore the “Role of Insulin-Regulated Transcription Factor FoxK1 in Males and Females” by our guest speaker\, Dr Prasanna Kumar Reddy Allu\, on October 12\, 2023. He will unravel the complexities of FoxK1\, a key player in the intricate machinery of insulin regulation\, and how its functions differ between males and females. \nLet’s delve into the captivating world of Molecular Biology. \nAbout the Speaker \nDr Prasanna Kumar Reddy Allu is a research scientist at Harvard Medical School\, USA. He has ten years of research experience in metabolism\, brown fat\, and cardiovascular research. Dr Kumar was ranked AIR-18 for Master of Technology (Biotechnology) in the Jawaharlal Nehru University Exam for Biotechnology conducted by Jawaharlal Nehru University\, New Delhi and has received a Junior/Senior Research Fellowship from the University Grants Commission (UGC) and Council of Scientific & Industrial Research (CSIR) for pursuing Doctoral study. The American Heart Association (AHA) also awarded Dr Kumar a post-doctoral fellowship.
URL:https://events.srmap.edu.in/event/unravelling-mysteries-of-gender-specific-gene-regulation-with-dr-prasanna-kumar/
LOCATION:Tiered Classroom\, 5th Floor\, Admin Block
CATEGORIES:Biology Events,Departmental Events,Events,Invited Talks
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BEGIN:VEVENT
DTSTART;TZID=Asia/Kolkata:20231012T150000
DTEND;TZID=Asia/Kolkata:20231012T160000
DTSTAMP:20260421T092149
CREATED:20231010T055800Z
LAST-MODIFIED:20250526T131014Z
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SUMMARY:Nobel Lecture in Chemistry - Delve into the World of Quantum Dots!
DESCRIPTION:On the declaration of the Noble Prize in Chemistry 2023: “for the discovery and synthesis of quantum dots\, the Department of Chemistry feels is organising Noble and Ig Noble Lecture Series. The Department is hosting the first captivating intellectual odyssey by Dr Sabyasachi Chakrabortty\, Associate Professor\, Department of Chemistry on October 12\, 2023. Dr Chakrabortty will deliver the lecture on “The Colourful World of Quantum Dots.” This session promises to be a thought-provoking exploration of the fascinating realm where quantum physics and nanotechnology converge opening up new horizons in science and technology. \nPrepare to be enthralled as we delve into the microscopic world of quantum dots\, where the properties of matter behave in ways that challenge our understanding of the physical universe. Let us journey through the vibrant and diverse landscape of these nanoscale wonders. \nJoin now for an illuminating session! \nAbstract \nQuantum dots (QDs)\, nanoscale semiconductor particles\, have emerged as a fascinating field of research and application due to their unique synthesis methods\, remarkable properties\, and diverse range of applications. These tiny nanoparticles\, typically in the range of 2 to 10 nanometers\, exhibit size-tunable emission spectra\, a property arising from quantum confinement effects\, making them invaluable in many fields such as display technology\, medical imaging\, catalysis\, renewable energies and so on. In this talk\, the journey so far for QDs and the limitless possibilities they offer for the future will be discussed. The future is bright – it can range from flexible electronics\, tiny sensors\, thinner solar cells to encrypted quantum communication.
URL:https://events.srmap.edu.in/event/nobel-lecture-in-chemistry-delve-into-the-world-of-quantum-dots/
LOCATION:APJ Abdul Kalam Auditorium
CATEGORIES:Departmental Events,Events
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