MoneyView posts Rs 577 Cr revenue in FY23; profit spikes 27X Online credit platform MoneyView secured $75 million in its Series E round led by Apis Partners in December 2022. The mammoth funding helped the firm achieve 2.6X growth in its scale along with a staggering 27X jump in profit during the fiscal year ending March 2023. Visit - https://entrackr.com/2024/04/moneyview-posts-rs-577-cr-revenue-in-fy23-profit-spikes-27x/ #Entrackr #MoneyView #Revenue #startupnews #news

Portea’s revenue stays flat in FY23; losses grow 32% Home healthcare solution provider Portea has been struggling to scale which is evident from its stagnant growth in FY23. At the same time, the Accel-backed firm’s losses grew 32% during the fiscal year ending March 2023. Visit- https://entrackr.com/2024/04/porteas-revenue-stays-flat-in-fy23-losses-grow-32/ #ENtrackr #Portea #Revenue #startupnews #news

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Innovations in Manufacturing Techniques for Solid Lipid Nanoparticles The manufacturing process plays a critical role in the development of solid lipid nanoparticles (SLNs), influencing their physicochemical properties, drug loading capacity, and scalability. In this blog post, we'll explore recent innovations in manufacturing techniques for SLNs and their implications for formulation development and commercial production. 1. High-Pressure Homogenization (HPH): High-pressure homogenization is a widely used technique for preparing SLNs, involving the application of high shear forces to lipid dispersions to reduce particle size and achieve homogenization. Recent advancements in HPH technology, such as the use of microfluidic devices and advanced homogenization chambers, have led to improved particle size control, enhanced drug loading efficiency, and reduced processing times. These innovations have facilitated the scale-up of SLN production and enabled the development of tailored formulations for specific therapeutic applications. 2. Microfluidic-Based Manufacturing: Microfluidic-based manufacturing techniques offer precise control over formulation parameters and particle characteristics, making them attractive options for SLN production. Microfluidic devices allow for the continuous and automated production of SLNs with narrow size distributions and uniform drug distribution. By leveraging microfluidic platforms, researchers can optimize process parameters, such as flow rates, mixing ratios, and residence times, to tailor SLN properties and enhance formulation reproducibility. 3. Supercritical Fluid Technology: Supercritical fluid technology has emerged as a promising approach for manufacturing SLNs, offering advantages such as rapid processing, solvent-free operation, and precise control over particle size and morphology. Supercritical fluid-based methods, such as supercritical antisolvent precipitation (SAS) and supercritical fluid extraction of emulsions (SFEE), enable the production of SLNs with tunable properties and high drug loading capacities. These techniques utilize supercritical fluids, such as CO2, as solvents or antisolvents to precipitate lipid nanoparticles from solution, resulting in controlled particle formation and enhanced drug encapsulation. 4. Spray Drying: Spray drying is a versatile manufacturing technique that has been adapted for the production of SLNs, offering advantages such as rapid processing, scalability, and versatility in formulation design. Spray drying involves atomizing a lipid solution or dispersion into fine droplets, which are then dried to form solid particles. Recent innovations in spray drying technology, such as the use of co-spray drying with hydrophilic carriers or excipients, have enabled the development of SLN formulations with improved drug loading efficiency, stability, and dispersibility. 5. Nanoprecipitation Methods: Nanoprecipitation methods, such as solvent displacement and emulsion solvent diffusion, are commonly used for preparing SLNs by inducing the precipitation of lipids from solution in the presence of a nonsolvent or aqueous phase. Recent advancements in nanoprecipitation techniques, such as the use of microfluidic devices or novel surfactants, have facilitated precise control over particle size, drug loading, and formulation stability. These innovations have expanded the scope of nanoprecipitation methods for SLN production and enabled the development of complex formulations with tailored properties. Conclusion: Innovations in manufacturing techniques have significantly advanced the field of solid lipid nanoparticles, enabling precise control over particle properties, formulation parameters, and scalability. By leveraging cutting-edge technologies such as high-pressure homogenization, microfluidics, supercritical fluid technology, spray drying, and nanoprecipitation methods, researchers can overcome manufacturing challenges and develop SLN formulations with enhanced performance and clinical utility. Stay tuned for more insights into solid lipid nanoparticles formulation development and technology. For further exploration, visit https://renejix.com/formulation-technologies/solid-lipid-nanoparticles/.

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Nanoemulsions: Redefining Industrial Lubricants for Enhanced Performance and Sustainability Introduction: Industrial lubricants play a critical role in machinery operation, reducing friction, wear, and heat generation to enhance equipment performance and longevity. Nanoemulsions have emerged as a revolutionary technology in lubricant formulations, offering advanced lubrication solutions with improved efficiency, durability, and sustainability. In this blog post, we explore the application of nanoemulsions in industrial lubricants and their potential to revolutionize machinery maintenance and performance across various industrial sectors. Enhanced Lubrication Efficiency and Friction Reduction: Nanoemulsion-based lubricants offer enhanced lubrication efficiency and friction reduction, ensuring smoother operation and reduced energy consumption in industrial machinery. The small droplet size of nanoemulsions allows for better coverage and penetration of lubricating agents into metal surfaces, forming a durable boundary film that reduces friction and wear under high-load and high-speed conditions. This enhanced lubrication efficiency improves machinery performance, extends component lifespan, and reduces maintenance costs for industrial operators. Improved Thermal Stability and Heat Dissipation: Nanoemulsion-based lubricants provide improved thermal stability and heat dissipation properties, enhancing equipment reliability and safety in high-temperature operating environments. The surfactant-stabilized droplets in nanoemulsion formulations can encapsulate heat-resistant additives or nano-scale solid lubricants that withstand elevated temperatures and pressures. This enhanced thermal stability allows lubricants to maintain their viscosity and lubricating properties at extreme conditions, preventing thermal breakdown, oxidation, and component failure in industrial machinery. Reduced Wear and Component Fatigue: Nanoemulsion-based lubricants contribute to reduced wear and component fatigue in industrial machinery, prolonging equipment lifespan and minimizing downtime for maintenance and repairs. The superior lubrication and friction reduction properties of nanoemulsion formulations ensure that moving parts experience less abrasive wear and surface fatigue, resulting in smoother operation and less frequent component replacements. This reduced wear extends machinery service intervals, increases production uptime, and enhances overall equipment reliability and productivity for industrial operations. Environmental Benefits and Sustainability: Nanoemulsion-based lubricants offer environmental benefits and sustainability advantages compared to conventional lubricants, thanks to their reduced environmental footprint and eco-friendly formulation ingredients. The small droplet size of nanoemulsions allows for lower lubricant application rates and reduced waste generation during machinery maintenance, minimizing resource consumption and pollution in industrial facilities. Additionally, nanoemulsion formulations can be formulated with biodegradable or renewable lubricating agents, reducing the release of harmful substances into the environment and promoting the development of greener lubricant products that meet sustainability goals and regulatory requirements. Specialized Formulations for Diverse Industrial Applications: Nanoemulsions offer versatility in formulating specialized lubricants for diverse industrial applications and operating conditions, catering to specific machinery requirements and performance demands. They can be used to encapsulate a wide range of lubricating agents, additives, and functional modifiers, such as extreme pressure (EP) additives, anti-wear agents, corrosion inhibitors, and viscosity modifiers, in precise dosages and formulations. Nanoemulsion-based lubricants can be tailored for various industrial sectors, such as automotive, aerospace, manufacturing, energy, and marine, providing lubrication solutions optimized for specific machinery types, operating environments, and performance criteria. Conclusion: In conclusion, nanoemulsions represent a transformative technology in industrial lubricants, offering advantages such as enhanced lubrication efficiency, thermal stability, wear reduction, environmental sustainability, and versatility. By revolutionizing machinery maintenance and performance with innovative lubrication solutions, nanoemulsion-based lubricants have the potential to optimize equipment reliability, productivity, and sustainability across diverse industrial sectors. As nanoemulsion technology continues to advance, we can expect further innovations in lubricant formulations and the development of new generations of lubrication products that meet evolving industry needs and performance standards. For more information, visit https://renejix.com/formulation-technologies/nanoemulsions/.

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Navigating the Cloud Ecosystem: Selecting the Right Type for Your AI Journey The cloud offers a diverse landscape of options for businesses wanting to leverage AI's potential. Understanding the different cloud types and their suitability for AI implementations is crucial for making informed decisions. Here's a breakdown of the key players: 1. Public Cloud: Giants like AWS, Azure, and GCP offer vast resources and economies of scale, perfect for cost-effective development and training of AI models. However, concerns about data security and compliance might require additional measures for sensitive data. 2. Private Cloud: This dedicated environment provides complete control and security, ideal for handling sensitive data or adhering to strict regulatory requirements. But managing hardware and infrastructure can be resource-intensive. 3. Hybrid Cloud: Combining public and private clouds gives you flexibility and control. Sensitive data can reside in the private cloud, while public cloud handles non-critical tasks or bursts of traffic. This balanced approach requires robust management capabilities. Cloud-based AI as a Service: Now, let's explore the "as-a-Service" options within these cloud types: Infrastructure as a Service (IaaS): Rent on-demand computing resources like servers and storage to build and train your own AI models, offering customization and control. Platform as a Service (PaaS): Leverage pre-configured environments and tools specifically designed for AI development and deployment, accelerating development but with less flexibility. Software as a Service (SaaS): Access pre-trained AI models for specific tasks like image recognition or data analysis, offering immediate functionality but limited customization. Choosing the right cloud type and service depends on your specific needs: For complex, custom AI projects: Opt for IaaS in a public or hybrid cloud for ultimate control and customization. For faster development with pre-built tools: Choose PaaS in a public cloud for efficiency and expertise. For quick access to pre-trained AI models: Utilize SaaS in any cloud for immediate functionality and cost-effectiveness. Remember, V2Soft can guide you through this selection process and provide tailored solutions to empower your AI journey in the cloud. Contact us today and let's unlock the transformative power of AI together! Visit : https://v2softusa.tumblr.com/post/742476588645515264/navigating-the-cloud-your-guide-to-v2softs