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Prof. Anandan Sambandam | Cognitive Development | Best Researcher Award 

Anandan Sambandam,National Institute of Technology, Tiruchirappalli,India

 

Anandan Sambandam is a noted academic and researcher affiliated with the National Institute of Technology (NIT) in Tiruchirappalli, India. He holds expertise in [insert area of expertise, e.g., Computer Science, Electrical Engineering] and has made significant contributions to [mention any notable contributions or achievements, e.g., research in renewable energy, development of new algorithms, etc.]. His work is recognized for [mention any awards or recognitions if applicable]. Anandan Sambandam continues to be an influential figure in his field, shaping both academic research and practical applications

Professional Profile:

Education:

  • B.Sc. Chemistry: University of Madras, India (1993)
  • M.Sc. Chemistry: University of Madras, India (1995)
  • Ph.D. Chemistry-Energy Interdisciplinary: University of Madras, India (2002)
  • FTnASc (Fellow of Tamil Nadu Academy of Science): 2010

Academic Positions:

  • Current: Professor in the Department of Chemistry at the National Institute of Technology, Trichy, since March 2018.
  • Previous: Held various academic positions including Head of Department and Associate Professor at the same institute from 2006 onwards.

Research Focus Areas:

  • Nanomaterials
  • Sonochemistry
  • Photocatalysis
  • Dye-sensitized solar cells
  • Perovskite solar cells
  • Organic solar cells
  • Electrochemical and fluorescence sensors

Awards and Recognitions:

Dr. Anandan has received numerous awards and fellowships, highlighting his contributions and achievements:

  • Department of Science & Technology (India) SERC Fast Track Young Scientist Award (2005)
  • Hiyoshi Young Leaf Award (2009)
  • Dr. APJ Abdul Kalam Award (2016)
  • Best Performers Awards from National Institute of Technology (multiple years from 2017 to 2024)

Publications: 

  1. Material: Co3O4-CoO@Co electrocatalysts.
    • These are cobalt-based compounds likely used for catalyzing the hydrogen evolution reaction (HER).
  2. Properties:
    • Nonprecious: Indicates these catalysts are cost-effective compared to precious metal alternatives.
    • Shape-controlled: The morphology of the catalysts is intentionally engineered for enhanced performance.
    • Defect-rich: Catalysts with defects can often exhibit higher catalytic activity.
    • Spin-state altering properties: This suggests the ability to modify electron spin states, which can impact catalytic efficiency.
  3. Application:
    • Accelerating HER: Enhancing the rate of hydrogen production, crucial for various energy applications.
    • Large current densities: Ability to sustain high current outputs, relevant for industrial-scale electrolysis.
    • Wide pH range: Functionality across different acidity levels, making them versatile for various environmental conditions.
Anandan Sambandam | Cognitive Development | Best Researcher Award

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