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Future of NOx Reduction Science #worldresearchawards #researchaward #researcher #NOxreduction

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Nanofluids—engineered fluids containing nanoparticles—are opening exciting new possibilities in biomedical science, especially when it comes to understanding how fluids move through the human body. This video takes you on a fascinating chemistry and bioengineering deep dive into how nanofluid flow behaves inside arteries, revealing insights that could revolutionize diagnostics, targeted drug delivery, and therapeutic technologies. Inside arteries, the interaction between nanoparticles and blood components creates complex yet highly valuable fluid dynamics. By dispersing materials like gold, silver, graphene, or metal oxides into biological fluids, researchers can enhance thermal conductivity, improve imaging contrast, and influence flow characteristics at the microscopic level. These enhancements help scientists simulate and understand physiological conditions more accurately than ever before. Nanofluids also play an important role in medical heat transfer—crucial for hyperthermia ca...
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Smart Chemistry Against Malaria #worldresearchawards #researchaward #researcher #malariascience

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Malaria remains one of the world’s most persistent and deadly infectious diseases, driving an urgent need for innovative therapeutic strategies. Peptidomimetic chemistry has emerged as a powerful approach in the search for next-generation antimalarial drugs, combining the biological effectiveness of peptides with the stability and drug-like properties of small molecules. This video explores how peptidomimetics are unlocking new molecular pathways to combat malaria more effectively. Peptidomimetics are specially designed compounds that mimic the structure and function of natural peptides while overcoming their major limitations, such as poor stability, rapid degradation, and low bioavailability. In antimalarial research, these molecules are engineered to target critical parasite processes, including protease activity, host–parasite interactions, and key metabolic pathways essential for Plasmodium survival. Through structure-based drug design, medicinal chemists can precisely tailor p...
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Inside Glycosphingolipid Pathways #worldresearchawards #researchaward #researcher #biochemistry

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Glycosphingolipids are complex lipids that play essential roles in cell membranes, where they regulate signaling, membrane organization, and cell–cell communication. This video explores how mouse models are helping scientists unlock the mysteries of glycosphingolipid biology and understand their profound impact on health and disease. In mice, glycosphingolipids are especially important for normal brain development, immune system function, and metabolic regulation. By using genetically engineered mouse models, researchers can selectively alter glycosphingolipid synthesis or degradation pathways and observe the resulting biological effects. These studies have revealed critical links between glycosphingolipid imbalance and neurological disorders, inflammatory diseases, insulin resistance, and lysosomal storage diseases such as Gaucher and Tay–Sachs. Advanced techniques such as lipidomics, mass spectrometry, and fluorescence imaging allow scientists to track glycosphingolipid distributio...
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Battery Chemistry Hack Explained #worldresearchawards #researchaward #researcher #lithiumionbattery

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Lithium-ion pouch cells are at the heart of modern energy storage, powering everything from smartphones to electric vehicles. This video dives into a smart “salt solution hack” that highlights how electrolyte salt selection and concentration can dramatically influence pouch cell performance, safety, and lifespan. By fine-tuning the chemistry inside the battery, researchers are unlocking more efficient and reliable energy storage systems. The electrolyte in a Li-ion pouch cell plays a critical role in transporting lithium ions between the anode and cathode. Common lithium salts such as LiPF₆, LiFSI, and LiTFSI each offer unique advantages in terms of ionic conductivity, thermal stability, and electrochemical performance. Adjusting salt composition and solvent compatibility can reduce internal resistance, suppress unwanted side reactions, and improve charge–discharge efficiency. This “salt solution hack” also impacts the formation of a stable solid electrolyte interphase (SEI), which i...
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DNAzymes: Catalysts from DNA #worldresearchawards #researchaward #researcher #biotechnology

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DNA is far more than a carrier of genetic information. In recent years, scientists have discovered powerful functional forms of DNA—aptamers and DNAzymes—that are transforming biotechnology, diagnostics, and medical chemistry. This video explores how these remarkable DNA-based tools are unlocking new possibilities across science and healthcare. DNA aptamers are short, single-stranded DNA sequences that fold into unique three-dimensional structures capable of binding specific targets with high affinity and selectivity. Often compared to antibodies, aptamers offer key advantages such as chemical stability, low immunogenicity, and easy synthesis. They are widely used in biosensors, targeted drug delivery, disease diagnostics, and environmental monitoring. DNAzymes, also known as catalytic DNA, take DNA functionality even further by acting as enzymes. These DNA molecules can catalyze chemical reactions such as RNA cleavage, metal-ion detection, and redox processes. Their tunable activity...
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Chemistry Behind Ni-Alloy Boosting #worldresearchawards #researchaward #researcher #tribology

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Nanofluids—engineered fluids containing nanoparticles—are opening exciting new possibilities in biomedical science, especially when it comes to understanding how fluids move through the human body. This video takes you on a fascinating chemistry and bioengineering deep dive into how nanofluid flow behaves inside arteries, revealing insights that could revolutionize diagnostics, targeted drug delivery, and therapeutic technologies. Inside arteries, the interaction between nanoparticles and blood components creates complex yet highly valuable fluid dynamics. By dispersing materials like gold, silver, graphene, or metal oxides into biological fluids, researchers can enhance thermal conductivity, improve imaging contrast, and influence flow characteristics at the microscopic level. These enhancements help scientists simulate and understand physiological conditions more accurately than ever before. Nanofluids also play an important role in medical heat transfer—crucial for hyperthermia ca...
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Smart Robotics Meets Green Science #worldresearchawards #researchaward #researcher #greentechnology

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Robotics is rapidly transforming environmental chemistry, enabling scientists to monitor, analyze, and protect our planet with unprecedented precision and efficiency. This video explores how intelligent robots and automated systems are reshaping environmental research, pollution control, and sustainable resource management. By combining chemistry, robotics, and artificial intelligence, researchers are developing smarter tools to address some of the world’s most pressing environmental challenges. Modern environmental robots are capable of collecting air, water, and soil samples in hazardous or remote locations where human access is limited or unsafe. Equipped with advanced chemical sensors, these robots can detect pollutants, toxic metals, microplastics, and greenhouse gases in real time. This automation not only improves data accuracy but also enables continuous monitoring of ecosystems, industrial sites, and urban environments. Robots are also playing a vital role in environmental r...
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