results 373-384 of 557
Performance Evaluation of Sintered Fly ash Lightweight Aggregate in Concrete
28/03/2024
Inventors: S B Singh
Performance evaluation of sintered fly ash lightweight aggregate in concrete focuses on assessing its impact on concrete properties and structural performance. Sintered fly ash, a byproduct of coal combustion, is processed to create lightweight aggregates with enhanced properties. The evaluation includes testing for mechanical strength, durability, and thermal insulation of...
Performance evaluation of sintered fly ash lightweight aggregate in concrete focuses on assessing its impact on concrete properties and structural performance. Sintered fly ash, a byproduct of coal combustion, is processed to create lightweight aggregates with enhanced properties. The evaluation includes testing for mechanical strength, durability, and thermal insulation of concrete incorporating these aggregates. Key metrics such as compressive strength, density, and thermal conductivity are measured to determine how the sintered fly ash affects concrete’s performance. The study aims to optimize the use of these aggregates to improve concrete’s sustainability, reduce its weight, and enhance thermal efficiency, offering potential benefits for construction applications. (Civil Engineering)
Micro and Nano Plastics as emerging Food Contaminants: Establishing validated Methodologies and Understanding the Prevalence in Different food matrices
12/03/2024
Inventors: Paul Atish Tulshiram
Micro and nano plastics are emerging as significant food contaminants, prompting the need for validated methodologies to detect and quantify them in various food matrices. Research focuses on developing and standardizing analytical techniques, such as spectroscopy and chromatography, to ensure accurate measurement of these contaminants. Understanding their prevalence involves surveying...
Micro and nano plastics are emerging as significant food contaminants, prompting the need for validated methodologies to detect and quantify them in various food matrices. Research focuses on developing and standardizing analytical techniques, such as spectroscopy and chromatography, to ensure accurate measurement of these contaminants. Understanding their prevalence involves surveying diverse food products, from seafood to packaged goods, to assess exposure risks. This comprehensive approach aims to identify contamination sources, evaluate potential health impacts, and inform regulatory measures. By establishing robust detection methods and analyzing contamination levels, efforts seek to safeguard food safety and public health from the growing threat of plastic pollution. (Pharmacy)
Interaction of Ultrathin Films of Functionalized Graphene with Proteins at Air-Water and Solid-Water Interfaces
18/03/2024
Inventors: Raj Kumar Gupta
The study investigates the fascinating interactions between ultrathin films of functionalized graphene and proteins, exploring how these interactions differ at air-water and solid-water interfaces. By examining the behavior of graphene in the presence of proteins at these varied interfaces, the research aims to gain insights into the potential applications of...
The study investigates the fascinating interactions between ultrathin films of functionalized graphene and proteins, exploring how these interactions differ at air-water and solid-water interfaces. By examining the behavior of graphene in the presence of proteins at these varied interfaces, the research aims to gain insights into the potential applications of functionalized graphene in biotechnological and biomedical fields. Understanding how proteins interact with graphene at different interfaces could unlock new possibilities for developing advanced materials and technologies for use in various industries, including healthcare and environmental science. (Physics)
All-Solid-State Supercapacitors using Li+ Ion Garnet-Polymer Hybrid Composites
15/03/2024
Inventors: Anshuman Dalvi
All-solid-state supercapacitors are engineered with advanced technology using lithium ion garnet-polymer hybrid composites, a cutting-edge combination that enhances the performance and reliability of the energy storage systems. This innovative design significantly elevates the capabilities of supercapacitors, making them more efficient and durable for various applications that require reliable power sources....
All-solid-state supercapacitors are engineered with advanced technology using lithium ion garnet-polymer hybrid composites, a cutting-edge combination that enhances the performance and reliability of the energy storage systems. This innovative design significantly elevates the capabilities of supercapacitors, making them more efficient and durable for various applications that require reliable power sources. By integrating lithium ion garnet-polymer hybrid composites, these supercapacitors can meet the growing demand for sustainable and high-performance energy storage solutions in the modern technological landscape. (Physics)
Implications of Inelastic Scattering and Spin Dephasing Mechanisms in Graphene Nano Ribbon-Based Spintronics
15/03/2024
Inventors: Niladri Sarkar, Navneet Gupta
The implications of inelastic scattering and spin dephasing mechanisms play a crucial role in exploring the potential of utilizing graphene nano ribbon-based spintronics for next-generation electronic devices. Understanding how these mechanisms influence the behavior of spins in graphene nano ribbons is essential for optimizing spintronic applications and advancing the field...
The implications of inelastic scattering and spin dephasing mechanisms play a crucial role in exploring the potential of utilizing graphene nano ribbon-based spintronics for next-generation electronic devices. Understanding how these mechanisms influence the behavior of spins in graphene nano ribbons is essential for optimizing spintronic applications and advancing the field of nanoelectronics. By investigating the interplay between inelastic scattering and spin dephasing, researchers can uncover new insights into the spin dynamics of graphene nano ribbons, leading to innovative strategies for enhancing spin transport efficiency and enabling novel functionalities in spin-based technologies. (Physics)
One-step Stretchable PES Laser Scribed Graphene IDEs for Ultrasensitive Non-Enzymatic Electrochemical Sweat Glucose Detection
04/03/2024
Inventors: Geeta Bhatt
Researchers have developed innovative one-step stretchable PES laser scribed graphene IDEs specifically designed for ultrasensitive detection of glucose in sweat without the need for enzymes. The unique properties of these IDEs make them highly effective for electrochemical analysis, offering a reliable and accurate method for monitoring glucose levels. This cutting-edge...
Researchers have developed innovative one-step stretchable PES laser scribed graphene IDEs specifically designed for ultrasensitive detection of glucose in sweat without the need for enzymes. The unique properties of these IDEs make them highly effective for electrochemical analysis, offering a reliable and accurate method for monitoring glucose levels. This cutting-edge technology represents a significant advancement in non-invasive glucose monitoring, providing a convenient and efficient solution for individuals with diabetes. With the ability to adapt to different shapes and sizes, these IDEs offer a versatile and practical tool for continuous glucose monitoring, paving the way for improved healthcare management. (Mechanical Engineering)
Pharmacological Intervention using α-Klotho with AT1 Receptor Blocker and Sodium-Glucose Co-Transporter 2 (SGLT-2) Inhibitor against Diabetic Kidney Disease
05/03/2024
Inventors: Gaikwad Anil Bhanudas
Pharmacological intervention involves the utilization of α-Klotho in combination with an AT1 receptor blocker and a Sodium-Glucose Co-Transporter 2 (SGLT-2) inhibitor to manage diabetic kidney disease. This approach integrates the potential benefits of α-Klotho in conjunction with the known effects of AT1 receptor blockers and SGLT-2 inhibitors in addressing the...
Pharmacological intervention involves the utilization of α-Klotho in combination with an AT1 receptor blocker and a Sodium-Glucose Co-Transporter 2 (SGLT-2) inhibitor to manage diabetic kidney disease. This approach integrates the potential benefits of α-Klotho in conjunction with the known effects of AT1 receptor blockers and SGLT-2 inhibitors in addressing the complications associated with diabetic kidney disease. By combining these therapeutic elements, healthcare providers aim to enhance treatment outcomes and effectively combat the progression of kidney damage in diabetic patients. The synergistic action of these components offers a promising avenue for managing this complex condition and improving patient well-being in the long term. (Pharmacy)
Statistics of Powerful Earthquakes: Formulation and Physical Relevance
19/02/2024
Inventors: Sumanta Pasari
The statistical analysis of powerful earthquakes is an essential aspect of seismology, playing a crucial role in predicting and understanding the occurrence of these natural phenomena. By formulating precise models and utilizing advanced technologies, scientists can determine the physical relevance of seismic events, shedding light on the complex dynamics of...
The statistical analysis of powerful earthquakes is an essential aspect of seismology, playing a crucial role in predicting and understanding the occurrence of these natural phenomena. By formulating precise models and utilizing advanced technologies, scientists can determine the physical relevance of seismic events, shedding light on the complex dynamics of tectonic plate movements and their impact on the Earth's crust. This comprehensive approach enables researchers to enhance their understanding of earthquake patterns and behaviors, ultimately contributing to better preparedness and response strategies for mitigating the risks associated with such catastrophic events. (Mathematics)
Heat Transfer Characterization of Enhanced Condenser Tubes for a Typical Two-Phase Immersion Cooling System
06/01/2024
Inventors: Aneesh A M
An essential aspect of optimizing the performance of a typical two-phase immersion cooling system lies in thoroughly understanding the heat transfer characteristics associated with enhanced condenser tubes. These tubes are designed specifically to improve heat dissipation efficiency and ensure a more effective cooling process. By delving into the intricate details...
An essential aspect of optimizing the performance of a typical two-phase immersion cooling system lies in thoroughly understanding the heat transfer characteristics associated with enhanced condenser tubes. These tubes are designed specifically to improve heat dissipation efficiency and ensure a more effective cooling process. By delving into the intricate details of heat transfer within these enhanced tubes, engineers can fine-tune the system parameters and enhance overall thermal management strategies, resulting in improved efficiency and reliability of the cooling system. (Mechanical Engineering)
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)
An Institute of Eminence
