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IICT Scientist Honored as Fellow of Indian Academy of Sciences

  //science-technology.news-articles.net/content/2 .. red-as-fellow-of-indian-academy-of-sciences.html
  Published in Science and Technology on Sunday, January 4th 2026 at 8:45 GMT by Telangana Today
      Locale: Telangana, INDIA

IICCT Scientist Dr. Chada Raji Reddy Honored as Fellow of Indian Academy of Sciences, Recognizing Contributions to Polymer Science & Nanotechnology

A significant milestone has been achieved in the field of materials science with the announcement that Dr. Chada Raji Reddy, a senior scientist at the Indian Institute of Chemical Technology (IICT), Hyderabad (now known as the Indian Institute of Chemical Technology – CSIR-IICT), has been elected as a Fellow of the Indian Academy of Sciences (IAS). This prestigious recognition underscores Dr. Reddy’s substantial contributions to polymer science and nanotechnology, particularly in the development of novel polymeric materials for diverse applications including drug delivery, diagnostics, and environmental remediation.

The Indian Academy of Sciences, established in 1934, is a premier scientific body dedicated to promoting research and fostering collaboration amongst scientists across various disciplines. Fellowship is bestowed upon individuals who have made outstanding contributions to their respective fields, demonstrating exceptional scholarship, leadership, and commitment to the advancement of science. Election as a Fellow represents a pinnacle of achievement for Indian scientists and signifies significant impact on the nation's scientific landscape. The IAS website (accessible through links within the original article) details its mission and history, highlighting its role in shaping India’s scientific progress.

Dr. Reddy’s research career spans over three decades at IICT, during which he has established himself as a leading expert in polymer chemistry and nanotechnology. His work primarily focuses on synthesizing and characterizing novel polymers with tailored properties for specific applications. A key area of his expertise lies in the development of stimuli-responsive polymeric materials – those that change their behavior (e.g., solubility, shape, or release rate) in response to external triggers like pH, temperature, light, or magnetic fields. This responsiveness is crucial for targeted drug delivery, where medication can be released precisely at a diseased site, minimizing side effects and maximizing therapeutic efficacy.

The article specifically highlights Dr. Reddy’s work on polymeric nanoparticles for drug delivery. These nanoparticles act as carriers, encapsulating drugs and protecting them from degradation in the body while ensuring their efficient transport to the target tissue or organ. His research has explored various polymer systems including poly(lactic-co-glycolic acid) (PLGA), a biodegradable and biocompatible polymer widely used in drug delivery applications. The original article mentions his work on developing “smart” nanoparticles that can release drugs based on specific physiological conditions, demonstrating a sophisticated understanding of both material science and biological processes. Further research into PLGA and its applications can be found through resources like the National Institutes of Health (NIH) website, which details its use in various biomedical fields.

Beyond drug delivery, Dr. Reddy’s research extends to other critical areas. He has made significant contributions to developing polymeric materials for diagnostic applications, including biosensors that can detect specific biomarkers associated with diseases. These sensors leverage the unique properties of polymers to create highly sensitive and selective detection platforms. Furthermore, his work addresses environmental concerns through the development of polymer-based adsorbents for removing pollutants from water and air. This demonstrates a commitment to applying scientific knowledge to address real-world challenges.

The article emphasizes that Dr. Reddy’s research is characterized by its interdisciplinary nature, bridging chemistry, materials science, biology, and engineering. He has actively fostered collaborations with researchers across these disciplines, leading to innovative solutions for complex problems. His mentorship of young scientists at IICT has also been recognized as a vital contribution, nurturing the next generation of Indian scientific talent. The CSIR-IICT website (linked in the original article) provides more information about the institute's research focus and its commitment to innovation.

The election as a Fellow of IAS is not just an individual honor for Dr. Reddy but also reflects positively on IICT/CSIR-IICT, highlighting the institution’s strength in chemical technology research. It reinforces the importance of supporting fundamental scientific research that can lead to transformative technologies with societal impact. This recognition will undoubtedly inspire other scientists at IICT and across India to pursue excellence in their respective fields.

Looking ahead, Dr. Reddy's continued work promises further advancements in polymer science and nanotechnology. His expertise is expected to contribute significantly to the development of new materials for healthcare, environmental protection, and various industrial applications. The IAS fellowship provides a platform for him to engage with leading scientists nationwide and internationally, fostering collaborations and driving innovation forward. The original article concludes by expressing hope that this recognition will further elevate the profile of Indian scientific research on the global stage.

This summary aims to capture the key aspects of Dr. Reddy’s achievements and the significance of his fellowship, drawing upon information presented in the provided URL and supplementing it with relevant contextual details from external sources where appropriate.