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Research 

Research Overview

Our research is highly interdisciplinary, focused on the interface between Environmental Chemistry, Analytical Chemistry, Materials and Nanotechnology for the development of sustainable water solutions and trace analysis of heavy metals and emerging organic pollutants. We have keen interest in developing nanocomposite, nanoporous and 2D materials for potential applications in catalysis, separations, SERS, sensing and clean energy. We also directs research and development of circular Chemistry to enable a circular economy. Our research emphasizes a strong link to societal needs and real-life environmental challenges.

  • Green Remediation

  • Emerging Pollutants

  • Water Resilience

  • Carbon Neutrality

  • Circular Chemistry

  • Sustainable Chemistry

Laboratory
Research Interests
  • Sustainable Water Solutions

  • Circular Chemistry to Enable a Circular Economy

  • Analysis of Trace Heavy Metals and Emerging Organic Contaminants

  • Environmental Catalysis

  • Zerovalent Metal Technology

  • Advanced Oxidation Tecchnologies for Wastewater Treatment

  • Assessment of Air Quality

  • Analytical Method Development: Separations, Electrochemistry, Spectroscopy

  • Advanced Low-Dimensional Nanomaterials for Environmental Applications

  • Biochar based Materials

  • Clean Energy

Research Linked to UN Sustainable Development Goals

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Recent Publications

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Research Highlights

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