Maham Khan holds an MPhil in Chemistry with distinction from Forman Christian College University, Lahore, Pakistan. Her research focuses on nanomaterials, rare-earth metal oxides, and their applications in renewable energy, particularly dye-sensitized solar cells (DSSCs). She has published in high-impact international journals and brings valuable experience as a lecturer and laboratory researcher. Maham is deeply passionate about pursuing higher studies and contributing to advanced research in sustainable energy. She actively participates in national and international conferences and is committed to academic excellence in the fields of nanochemistry and photovoltaics.
•Pillar: Climate Action and Renewable Energy
This expression of interest is submitted to join the Sustainability Global network under the pillar of Climate Action and Renewable Energy. With a strong academic foundation in Chemistry and research focused on nanomaterials and dye-sensitized solar cells (DSSCs), the candidate's work aligns closely with the goals of sustainable energy development and climate resilience.
The research has involved the synthesis and characterization of rare-earth modified BiFeO₃ nanoparticles for application in renewable energy technologies, particularly solar energy conversion. This work supports the global pursuit of cost-effective and environmentally friendly alternatives to fossil fuels, particularly in energy-deficient regions. The candidate has a demonstrated commitment to environmental sustainability and has actively contributed to scientific knowledge through publications and participation in international conferences.
Participation in the Sustainability Global platform offers an opportunity to collaborate across disciplines, share impactful research, and contribute to innovative solutions for climate action. Engagement in this network is seen as a vital step toward advancing collective efforts in achieving energy equity and environmental sustainability worldwide.
•https://scholar.google.com/citations?user=W8EdmLUAAAAJ&hl=en•https://scholar.google.com/citations?user=W8EdmLUAAAAJ&hl=en•Cum Laude•Core Value•Core ServicesMPhil Chemistry
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Maham Khan holds an MPhil in Chemistry with distinction from Forman Christian College University, Lahore, Pakistan. Her research focuses on nanomaterials, rare-earth metal oxides, and their applications in renewable energy, particularly dye-sensitized solar cells (DSSCs). She has published in high-impact international journals and brings valuable experience as a lecturer and laboratory researcher. Maham is deeply passionate about pursuing higher studies and contributing to advanced research in sustainable energy. She actively participates in national and international conferences and is committed to academic excellence in the fields of nanochemistry and photovoltaics.
Pillar: Climate Action and Renewable EnergyThis expression of interest is submitted to join the Sustainability Global network under the pillar of Climate Action and Renewable Energy. With a strong academic foundation in Chemistry and research focused on nanomaterials and dye-sensitized solar cells (DSSCs), the candidate's work aligns closely with the goals of sustainable energy development and climate resilience.The research has involved the synthesis and characterization of rare-earth modified BiFeO₃ nanoparticles for application in renewable energy technologies, particularly solar energy conversion. This work supports the global pursuit of cost-effective and environmentally friendly alternatives to fossil fuels, particularly in energy-deficient regions. The candidate has a demonstrated commitment to environmental sustainability and has actively contributed to scientific knowledge through publications and participation in international conferences.Participation in the Sustainability Global platform offers an opportunity to collaborate across disciplines, share impactful research, and contribute to innovative solutions for climate action. Engagement in this network is seen as a vital step toward advancing collective efforts in achieving energy equity and environmental sustainability worldwide.
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https://scholar.google.com/citations?user=W8EdmLUAAAAJ&hl=en
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- 🔸 Cum Laude
- 🔸 Core Value
- 🔸 Core Services
Maham Khan holds an MPhil in Chemistry with distinction from Forman Christian College University, Lahore, Pakistan. Her research focuses on nanomaterials, rare-earth metal oxides, and their applications in renewable energy, particularly dye-sensitized solar cells (DSSCs). She has published in high-impact international journals and brings valuable experience as a lecturer and laboratory researcher. Maham is deeply passionate about pursuing higher studies and contributing to advanced research in sustainable energy. She actively participates in national and international conferences and is committed to academic excellence in the fields of nanochemistry and photovoltaics.
Pillar: Climate Action and Renewable Energy
This expression of interest is submitted to join the Sustainability Global network under the pillar of Climate Action and Renewable Energy. With a strong academic foundation in Chemistry and research focused on nanomaterials and dye-sensitized solar cells (DSSCs), the candidate's work aligns closely with the goals of sustainable energy development and climate resilience.
The research has involved the synthesis and characterization of rare-earth modified BiFeO₃ nanoparticles for application in renewable energy technologies, particularly solar energy conversion. This work supports the global pursuit of cost-effective and environmentally friendly alternatives to fossil fuels, particularly in energy-deficient regions. The candidate has a demonstrated commitment to environmental sustainability and has actively contributed to scientific knowledge through publications and participation in international conferences.
Participation in the Sustainability Global platform offers an opportunity to collaborate across disciplines, share impactful research, and contribute to innovative solutions for climate action. Engagement in this network is seen as a vital step toward advancing collective efforts in achieving energy equity and environmental sustainability worldwide.