Faculty Publications

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Scholarly Publications by Integral Academia

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    Adaptability, A Precursor of Life- Long Learning
    (Nitya Publications, Bhopal MP India, 2023) Geetika Nidhi
    Adaptability is key factor of human survival and life- long learning can be defined as a form of self- initiated learning that is directed towards personal development. The objective of life-long learning bears social demand which results in upgradation of society. It accomplishes person‘s natural yearning to reconnoitre, learn and grow which heartens personal accomplishment and satisfaction. To safeguard life- long learning environment plays an important part, in case of life- long learning the adaptability of individual has contributed remarkably. Life-long learning environment can be fostered by proper exposure and approach in the education. Adaptability is crucial in human development since ages and is an important indicator of life- long learning. Life-long learning indicate renewed self -motivation, recognition of self -interest, improvement of personal and professional skills, improved self.Life-long learning has become easier in this time, but the success lies in the channelizing the information, knowledge and relevancy of upgrading the knowledge base of learner irrespective of age.
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    Exploring the Transformative Potential of Hybrid Nanoparticles in Biomedical Applications: Relevance of Hybrid Nanoparticles
    (IGI Gobal, 2024) Faria Fatima
    Hybrid nanoparticles are nanoscale particles that are composed by interaction between the different components, resulting in enhanced properties that can be harnessed for wide range of application across fields like medicine, electronics energy, and more. These nanoparticles are typically in the size range from 1-100 nanometers, which is advantageous. Because at this scale, they often exhibit novel behavior due to their quantum and surface effects. The choice of material and the way they are combined can be tailored to achieve specific goals. For example, in biomedical applications, hybrid nanoparticles can be engineered to have specific targeting abilities such as targeted drug delivery, theranostics, gene therapy, phototherapy, tissue regeneration, vaccines, antibacterial, biomolecules detection, imaging probes, tissue engineering, biosensing, and cancer treatment. They have enhanced qualities with increased target specificity and sensitivity, extended circulation times, and resistance to biological barriers.