results 529-540 of 704
Studies of Optoelectronic Properties in New Electroluminescent Organic/Inorganic Materials for Flexible Organic Light Emitting Devices
20/02/2024
Inventors: Sindhu S
Researchers have conducted thorough investigations into the optoelectronic properties of innovative electroluminescent organic/inorganic materials aimed at enhancing the performance of flexible organic light emitting devices. Through these studies, scientists seek to identify novel material compositions that offer superior light emission capabilities while maintaining flexibility, with the ultimate goal of advancing...
Researchers have conducted thorough investigations into the optoelectronic properties of innovative electroluminescent organic/inorganic materials aimed at enhancing the performance of flexible organic light emitting devices. Through these studies, scientists seek to identify novel material compositions that offer superior light emission capabilities while maintaining flexibility, with the ultimate goal of advancing the field of organic electronics and contributing to the development of efficient, high-quality lighting solutions for various applications. (Physics)
Smart Crop Planning: AI (Artificial Intelligence) based Decision Support System for Crop Diversification
17/10/2022
Inventors: Rallapalli Srinivas, Sai Sesha Chalapathi Gattupalli
Smart Crop Planning: Utilizing an AI-driven Decision Support System to enhance sustainable agriculture practices by promoting Crop Diversification. This innovative technology harnesses the power of Artificial Intelligence to provide farmers with optimized solutions for planning their crop rotations, ultimately leading to increased resilience against climate change and improving overall crop...
Smart Crop Planning: Utilizing an AI-driven Decision Support System to enhance sustainable agriculture practices by promoting Crop Diversification. This innovative technology harnesses the power of Artificial Intelligence to provide farmers with optimized solutions for planning their crop rotations, ultimately leading to increased resilience against climate change and improving overall crop yields. By integrating cutting-edge technology with traditional farming practices, this system empowers farmers with valuable insights and data-driven recommendations, paving the way for a more efficient and environmentally friendly approach to agriculture. (Civil Engineering)
Mathematical Multiscale Modeling and Simulation of the Conversion of Carbon Dioxide (CO2) to Methanol in a Catalytic Mixed Matrix Membrane Reactor for Efficient CO2 Capture and Utilization
01/02/2024
Inventors: Bhanu Vardhan Reddy Kuncharam
In our research project, we are employing advanced mathematical multiscale modeling techniques to simulate the intricate process of converting carbon dioxide (CO2) into methanol within a catalytic mixed matrix membrane reactor. This innovative approach aims to enhance the efficiency of carbon dioxide capture and utilization, thereby contributing to sustainable environmental...
In our research project, we are employing advanced mathematical multiscale modeling techniques to simulate the intricate process of converting carbon dioxide (CO2) into methanol within a catalytic mixed matrix membrane reactor. This innovative approach aims to enhance the efficiency of carbon dioxide capture and utilization, thereby contributing to sustainable environmental practices and paving the way for new developments in renewable energy technologies. By exploring the interplay of various factors at different scales, we seek to gain valuable insights that can drive the design of more effective and eco-friendly CO2 conversion systems, ultimately towards a greener and more resourceful future. (Chemical Engineering)
Reconfigurable Holographic Surfaces for Wireless Communication: Physical Layer Algorithms and Protocol Design
Study of Intermolecular S centered Chalcogen bonding (S•••X, X = O, N, S) interaction in Cryo-Matrix using FTIR spectroscopy
04/07/2023
Inventors: Shamik Chakraborty .
The investigation focused on analyzing the interactions of intermolecular sulfur-centered chalcogen bonding, specifically looking at the interactions between sulfur and oxygen, nitrogen, and sulfur itself. This study utilized FTIR spectroscopy to examine these unique bonding interactions within a cryo-matrix environment, providing valuable insights into the nature of these S•••X interactions....
The investigation focused on analyzing the interactions of intermolecular sulfur-centered chalcogen bonding, specifically looking at the interactions between sulfur and oxygen, nitrogen, and sulfur itself. This study utilized FTIR spectroscopy to examine these unique bonding interactions within a cryo-matrix environment, providing valuable insights into the nature of these S•••X interactions. The exploration aimed to deepen our understanding of the structural and chemical properties of these chalcogen bonds, shedding light on their behavior and significance in various molecular environments. Through this methodical examination, significant contributions were made towards unraveling the intricacies of these fascinating intermolecular interactions. (Chemistry)
Bifurcation Analysis and Reconfigurable Control Design for Autonomous Maneuvering with an Asymmetric Aircraft
05/04/2023
Inventors: Bijoy Krishna Mukherjee
In the realm of aerospace engineering, the focus is on conducting a bifurcation analysis and implementing reconfigurable control design strategies for optimizing autonomous maneuvering capabilities with an asymmetric aircraft. This comprehensive research endeavors to enhance the aircraft's performance and efficiency by studying the intricate dynamics involved in handling asymmetric configurations....
In the realm of aerospace engineering, the focus is on conducting a bifurcation analysis and implementing reconfigurable control design strategies for optimizing autonomous maneuvering capabilities with an asymmetric aircraft. This comprehensive research endeavors to enhance the aircraft's performance and efficiency by studying the intricate dynamics involved in handling asymmetric configurations. By delving into the complexities of bifurcation analysis and control design, this study aims to pave the way for advanced autonomous systems that can navigate challenging environments with precision and adaptability, ultimately revolutionizing the field of autonomous aerial navigation. (EEE)
Joint Indo-German academy towards sustainability (German Academic Exchange Service)
01/01/2020
Inventors: Kuldip Singh Sangwan
The Joint Indo-German academy towards sustainability, established through a partnership between the German Academic Exchange Service (DAAD) and prominent Indian educational institutions, aims to foster collaborations in research and education fields related to sustainability. This academy will provide opportunities for scholars and students from both countries to engage in joint...
The Joint Indo-German academy towards sustainability, established through a partnership between the German Academic Exchange Service (DAAD) and prominent Indian educational institutions, aims to foster collaborations in research and education fields related to sustainability. This academy will provide opportunities for scholars and students from both countries to engage in joint projects, exchange knowledge, and develop innovative solutions for pressing environmental challenges. By facilitating cross-cultural dialogue and cooperation, the academy seeks to enhance global understanding and promote sustainable development practices that benefit both nations and the wider international community. (Mechanical Engineering)
Western Australia Transforming Community Health (WATCH) Pilot Study
01/01/2023
Inventors: Vinti Agarwal
The Western Australia Transforming Community Health (WATCH) Pilot Study is a groundbreaking initiative aimed at revolutionizing the way healthcare services are delivered to local communities in the region. Through innovative approaches and advanced technologies, the study seeks to improve access to high-quality healthcare, enhance preventive care efforts, and empower individuals...
The Western Australia Transforming Community Health (WATCH) Pilot Study is a groundbreaking initiative aimed at revolutionizing the way healthcare services are delivered to local communities in the region. Through innovative approaches and advanced technologies, the study seeks to improve access to high-quality healthcare, enhance preventive care efforts, and empower individuals to take control of their health and wellbeing. By engaging with various stakeholders, including healthcare providers, policymakers, and community members, the WATCH Pilot Study is paving the way for a more integrated and sustainable healthcare system that prioritizes the unique needs and challenges of Western Australia's diverse population. (CS&IS)
Development of Smart Integrated Energy System for Supermarkets and Medium to Large Size Office Building in India Nick-Named “INDEE+”
01/11/2021
Inventors: Mani Sankar Dasgupta
The innovative project, "INDEE+," involves the creation of a cutting-edge smart integrated energy system specifically designed for supermarkets and medium to large office buildings in India. This advanced system aims to enhance energy efficiency, reduce carbon footprint, and optimize overall operational performance. By incorporating state-of-the-art technology and sustainable practices, the...
The innovative project, "INDEE+," involves the creation of a cutting-edge smart integrated energy system specifically designed for supermarkets and medium to large office buildings in India. This advanced system aims to enhance energy efficiency, reduce carbon footprint, and optimize overall operational performance. By incorporating state-of-the-art technology and sustainable practices, the initiative seeks to revolutionize energy management in commercial establishments, setting a new standard for environmentally friendly and cost-effective solutions in the region. The project's comprehensive approach includes holistic planning, implementation, and monitoring processes to ensure maximum benefits and long-term sustainability for stakeholders and the environment alike. (Mechanical Engineering)
Preclinical Comparative Efficacy Study of ant-inflammatory/analgesic loaded Formulations and their synergistic potential on Formalin-induced Neuropathic Pain in Wistar Rats
01/02/2023
Inventors: Rajeev Taliyan, Gautam Singhvi
In this preclinical study, we conducted a comparative efficacy assessment of anti-inflammatory and analgesic loaded formulations to explore their potential synergistic effects on formalin-induced neuropathic pain in Wistar rats. Through our investigation, we aimed to evaluate the impact of these formulations on pain perception and potential therapeutic benefits in the...
In this preclinical study, we conducted a comparative efficacy assessment of anti-inflammatory and analgesic loaded formulations to explore their potential synergistic effects on formalin-induced neuropathic pain in Wistar rats. Through our investigation, we aimed to evaluate the impact of these formulations on pain perception and potential therapeutic benefits in the context of neuropathic pain management. Our study involved detailed analysis of the pharmacological properties of these formulations, with a focus on understanding their mechanisms of action and potential for mitigating neuropathic pain symptoms in our animal model. (Pharmacy)
Use of Distillery and Domestic Wastewater to generate Hydrogen and Development of a Prototype thereof
01/02/2023
Inventors: Somak Chatterjee, Surojit Pande
The utilization of distillery and domestic wastewater for the purpose of generating hydrogen represents a cutting-edge approach to sustainable energy production. Through the synergistic integration of these waste streams, an innovative prototype is being developed to demonstrate the viability of this eco-friendly technology. This pioneering project aims to showcase how...
The utilization of distillery and domestic wastewater for the purpose of generating hydrogen represents a cutting-edge approach to sustainable energy production. Through the synergistic integration of these waste streams, an innovative prototype is being developed to demonstrate the viability of this eco-friendly technology. This pioneering project aims to showcase how resourceful solutions can be created by harnessing the potential of waste materials, thereby contributing to a more eco-conscious and efficient energy landscape. This initiative not only addresses the pressing issue of waste management but also paves the way for a greener and more sustainable future through the production of clean hydrogen energy. (Chemical Engineering)
Understanding the Supercooled Drop Impact Ice Accretion Dynamics Under Controlled Environmental Conditions and Developing the Anti-Icing Strategies for Aerospace Applications
01/03/2023
Inventors: A R Harikrishnan, Venkatesh K P
Studying the complex phenomenon of supercooled drop impact ice accretion dynamics under meticulously controlled environmental conditions is crucial for advancing our knowledge of anti-icing strategies tailored for aerospace applications. By delving deep into the intricacies of how ice forms upon impact and adheres to surfaces in adverse weather conditions, researchers...
Studying the complex phenomenon of supercooled drop impact ice accretion dynamics under meticulously controlled environmental conditions is crucial for advancing our knowledge of anti-icing strategies tailored for aerospace applications. By delving deep into the intricacies of how ice forms upon impact and adheres to surfaces in adverse weather conditions, researchers are able to design innovative methods and materials to effectively combat ice buildup on aircraft surfaces, ultimately enhancing safety and performance in the aviation industry. (Mechanical Engineering)
