Explore The Areas of Research

Shared Research Facilities & Resources

Shared Research Facilities & Resources

Students and researchers have access to advanced instrumentation both within our department and through shared facilities in the College of Science and Engineering. 

Updated details are available on the CoSE website, and enrolled students will receive guidance on using these resources.

ºÚÁÏ³Ô¹Ï Analytical Research

Our department’s analytical chemistry research explores advanced techniques for detecting, identifying, and quantifying chemical compounds. From environmental analysis to biomedical applications, our faculty and students work on innovative solutions to real-world challenges.

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ºÚÁÏ³Ô¹Ï Biochemistry Research

Our biochemistry research delves into the molecular mechanisms of life, exploring everything from drug development to metabolic pathways. Faculty and students collaborate on cutting-edge studies that advance medicine, biotechnology, and our understanding of biological systems.

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ºÚÁÏ³Ô¹Ï Inorganic Research

Our inorganic chemistry research explores the properties and applications of metals, minerals, and novel materials. From catalysis to nanotechnology, our faculty and students investigate groundbreaking advancements with real-world impact.

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  • Inorganic Research Faculty

    • Research Interests-
      The generation and characterization of synthetic carbon allotropes, along with exploring their potential applications in single-molecule magnets, electrocatalysis and electronic devices.

    • Research Interests
      The synthesis and properties of 'metastable' inorganic structures.

    • Research Interests
      Copper, Metalloenzymes, Reactive Oxygen Species, Inorganic Chemistry, Fungi, Pathogens, Candida, Oomycetes

    • Research Interests-
      Analytical and Inorganic Chemistry and Biochemistry.

    • Research Interests-
      My research focuses on sustainable catalysis and materials powered by renewable solar energy, with an emphasis on developing innovative chemical transformations to tackle urgent environmental and energy challenges. Current projects explore polymer upcycling, CO₂ utilization, and hydrogen storage—areas where students can contribute to solutions with real global impact.

    • Research Interests-
      My research interests lie in developing next‑generation nanomaterials and nanostructures to drive advances in sustainable energy, optoelectronics, and photocatalysis. By tailoring the size, shape, and surface chemistry of colloidal nanoparticles, we aim to uncover new physical pathways and reaction mechanisms that advance both fundamental understanding and practical technologies, with a particular focus on semiconductor optoelectronic devices and catalytic processes.

ºÚÁÏ³Ô¹Ï Organic Research

Our organic chemistry research delves into the structure, properties, and reactions of carbon-based compounds. From drug discovery to sustainable materials, our faculty and students drive innovation with real-world applications.

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  • Organic Research Faculty

    • Research Interests
      Photoactive organic compounds including synthesis, characterization and incorporation into hybrid systems.

    • Research Interests-
      The generation and characterization of synthetic carbon allotropes, along with exploring their potential applications in single-molecule magnets, electrocatalysis and electronic devices.

    • Research Interests-
      Application of N-alkynyl heterocycles in synthesis, natural product synthesis, medicinal chemistry, nucleic acid biochemistry focused on non-canonical DNA structures, self-assembly of reconfigurable soft materials

       

    • Research Interests-
      Synthetic Organic Chemistry (total synthesis and methodology); Chemical Biology (focus on cancer signaling and death pathways); Medicinal Chemistry (rational drug design and library screening); Natural Product Chemistry (isolation, structure elucidation and analogue synthesis)

    • Research Interests-
      My research focuses on sustainable catalysis and materials powered by renewable solar energy, with an emphasis on developing innovative chemical transformations to tackle urgent environmental and energy challenges. Current projects explore polymer upcycling, CO₂ utilization, and hydrogen storage—areas where students can contribute to solutions with real global impact.

    • Research Interests-
      My research interests lie in developing next‑generation nanomaterials and nanostructures to drive advances in sustainable energy, optoelectronics, and photocatalysis. By tailoring the size, shape, and surface chemistry of colloidal nanoparticles, we aim to uncover new physical pathways and reaction mechanisms that advance both fundamental understanding and practical technologies, with a particular focus on semiconductor optoelectronic devices and catalytic processes.

ºÚÁÏ³Ô¹Ï Physical Chemistry Research

Our physical chemistry research explores the fundamental principles governing chemical systems, from reaction dynamics to quantum mechanics. By combining theory and experimentation, we uncover insights that drive advancements in materials science, energy, and nanotechnology.

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ºÚÁÏ³Ô¹Ï Polymers & Materials Research

Our polymers and materials research focuses on designing and developing innovative materials with advanced properties for applications in medicine, energy, and industry. By exploring polymer chemistry and material science, we drive discoveries that enhance technology and sustainability.

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  • Polymers & Materials Research Faculty

    • Research Interests-
      Biomaterials and Nanomedicine

       

    • Research Interests
      Photoactive organic compounds including synthesis, characterization and incorporation into hybrid systems.

    • Research Interests-
      Application of N-alkynyl heterocycles in synthesis, natural product synthesis, medicinal chemistry, nucleic acid biochemistry focused on non-canonical DNA structures, self-assembly of reconfigurable soft materials

       

    • Research Interests-
      Analytical Chemistry and Biochemistry.

    • Research Interests-
      His research focuses on materials and interfacial electrochemistry for energy storage—an area highlighted by the 2019 Nobel Prize in Chemistry, and that sits at the intersection of multiple scientific disciplines. His research goal is to facilitate the widespread commercialization of novel, clean, and sustainable energy technologies. 

    • Research Interests-
      My research focuses on sustainable catalysis and materials powered by renewable solar energy, with an emphasis on developing innovative chemical transformations to tackle urgent environmental and energy challenges. Current projects explore polymer upcycling, CO₂ utilization, and hydrogen storage—areas where students can contribute to solutions with real global impact.

    • Research Interests-
      My research interests lie in developing next‑generation nanomaterials and nanostructures to drive advances in sustainable energy, optoelectronics, and photocatalysis. By tailoring the size, shape, and surface chemistry of colloidal nanoparticles, we aim to uncover new physical pathways and reaction mechanisms that advance both fundamental understanding and practical technologies, with a particular focus on semiconductor optoelectronic devices and catalytic processes.

ºÚÁÏ³Ô¹Ï Chemical Education Research

Our chemical education research enhances teaching methods, curriculum development, and student learning in chemistry. By exploring innovative instructional strategies and assessment techniques, we strive to improve science education and inspire the next generation of chemists.

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MEET OUR EXPERT FACULTY

MEET OUR EXPERT FACULTY

Our faculty research spans a diverse range of scientific fields, from cutting-edge biochemistry and materials science to environmental chemistry and computational modeling. This breadth of expertise fosters interdisciplinary collaboration and innovative solutions to real-world challenges.

Research Highlights

From innovative discoveries to collaborative projects, our Research Highlights section keeps you up to date on the incredible work happening across our labs.

Explore the people behind the breakthroughs—and see how our team is shaping the future of science.