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First device based on 'optical thermodynamics' can route light without switches #sciencefather #researchawards #researcher #OpticalThermodynamics

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From valves to routers to light Universal routing is a familiar engineering concept. In mechanics, a manifold valve directs inputs to a chosen outlet. In digital electronics, a Wi-Fi router at home or an Ethernet switch in a data center directs information from many input channels to the correct output port, ensuring that each stream of data reaches its intended destination. Potential industry impact The implications of the new approach extend far beyond the laboratory. As computing and data processing continue to push the limits of traditional electronics, various companies—including chip designers such as NVIDIA and others—are exploring optical interconnects as a way to move information faster and more efficiently. How it works: Chaos tamed by thermodynamics Nonlinear multimode optical system are often dismissed as chaotic and unpredictable. Their intricate interplay of modes has made them among the hardest systems to simulate—let alone design for practical use. Yet, precise...

Revolutionizing Chemistry Through Open-HTS #sciencefather #researchawards #researcher ##OpenHTS

 Discover how Open-HTS is transforming chemistry through high-throughput screening, AI integration, and open-source collaboration. Explore faster discoveries, smarter experiments, and the future of open scientific innovation. The world of chemistry is entering a new era — faster, smarter, and more collaborative than ever before. Open-HTS (Open High-Throughput Screening) is transforming how scientists explore molecules, materials, and reactions, breaking the barriers of traditional experimentation. Through automation, artificial intelligence, robotics, and open-source data , Open-HTS enables thousands of experiments to be performed, analyzed, and optimized simultaneously. What once took months can now happen in hours. In this video, you’ll discover how Open-HTS is revolutionizing every stage of chemical research — from drug discovery and catalysis to materials science and sustainable chemistry. Contact: support@chemistryscientists.org  Visit Our Websites: chemistryscientist...

Analytical Chemistry

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  International Chemistry Scientist Awards Analytical chemistry is the branch of chemistry that studies the composition and structure of matter. Through a series of advanced instruments and methods, it enables the identification and quantification of substances. This field is crucial to a wide range of sectors, from healthcare to environmental science and food safety. From detecting contaminants in drinking water to analyzing drug composition, analytical chemistry plays a vital role in solving real-world problems. Analytical chemistry can be broadly divided into two types of analysis: qualitative and quantitative. Qualitative analysis involves identifying the specific components of a sample and determining what substances are present, without focusing on their quantities. Conversely, in quantitative analysis the concentration or amount of each component in a sample is determined. Various techniques, or a combination of thereof, can be used, including spectroscopy, chromatography, a...

Biochemistry

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  International Chemistry Scientist Awards The department strives to instill basic knowledge of Biochemistry among the students. It specifically teaches biochemical mechanisms operating in a living system at molecular level that can be applied in daily life scenarios. The department imparts the skills of leadership, practical knowledge and innovation amongst its students in order to make them serve in various sectors of health, agriculture, industry and education. The elaborative course contents and impactful teaching methodologies develop high quality training in the rapidly growing fields of science. Success of Biochemistry has led the biochemists to develop new technologies in vast areas of biological sciences. It is no surprise that this field not only interests a large number of people but also offers various career opportunities in research organizations, academics and industries. 🔔 Subscribe for m ore insights on chemistry innovations!    Website:  chemistrys...

International Chemistry Scientist Awards

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 🔬 International Chemistry Scientist Awards 2025 – Nominate Now! 🌍 Celebrate innovation and excellence in chemistry! Submit your profile or nominate a deserving scientist making global impact in sustainable and cutting-edge chemical research. 🌱💡 📅 Hybrid Event | 🏆 Global Recognition | 🔗 Submit at [chemistryscientists.org] 🔔 Subscribe for m ore insights on chemistry innovations!    Website:  chemistryscientists.org    Contact us: support@chemistryscientist.org     Nominate  now:   https://chemistryscientists.org/award-nomination/?ecategory=Awards&rcategory=Awardee Don’t forget to like, share, and subscribe for more exciting content! Youtube Twitter Pinterest Instagram     Tumblr   #sciencefather#researchawardsProfessor,#Lecturer,Scientist,#Scholar,#Researcher#Distillation#SeparationTechnique#ChemicalEngineering#FractionalDistillation#SimpleDistillation#VacuumDistillation#SteamDistillat...

Inorganic chemistry

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  International Chemistry Scientist Awards Inorganic chemistry is a fascinating branch of chemistry that focuses on the study of inorganic compounds, which are compounds that do not primarily contain carbon-hydrogen (C-H) bonds. While organic chemistry is all about carbon-based compounds, inorganic chemistry covers a vast range of substances, including metals, minerals, and various non-metal elements. This article covers the definition of inorganic chemistry, its significance, and its role in our everyday lives, syllabus of senior secondary classes for inorganic chemistry, and much more.  What is Inorganic Chemistry? At its core, inorganic chemistry is the study of the chemical properties and behavior of inorganic compounds. These compounds can include a wide variety of materials, such as: Metals:  Like iron, copper, and aluminum. Salts:  Such as sodium chloride (table salt) and potassium sulfate. Minerals:  Like quartz, calcite, and various ores. Gasses:  ...

Chemical bonds link together atoms to make molecules

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  International Chemistry Scientist Awards The atoms in molecules, crystals, metals, diatomic gases and most of the physical environment around us are held together by chemical bonds. Molecular shapes, the three – dimensional arrangements of the atoms that constitute a molecule are determined by the nature of bonds between atoms in a molecule. Molecular geometry determines several properties of a substance including its reactivity, polarity, phase of matter, color, magnetism, and biological activity and hence there is no topic more fundamental to Chemistry than the nature of the chemical bond. The molecular shapes define all the life processes right from the way a biological “cell” works, the way nerve impulses are communicated and the way immune system works. Genes function when certain nucleic acid molecules fit into specific regions of other nucleic acid. Hydrogen bonding for example plays an important role in determining the three–dimensional structures adopted by proteins and ...