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The accomplished research interests in chemistry encompass the fascinating realm of nanomaterials and their applications in sustainable energy technologies. With a keen focus on innovative material design, the aim is to explore novel synthesis methods to engineer functional nanomaterials that can enhance the efficiency of catalytic processes for clean energy production. By delving into the intricate interplay of MOF and MOF derived photocatalysts and its reactivity at the nanoscale, the research seeks to unlock new avenues for improving energy conversion and storage systems. With a profound commitment to addressing pressing global challenges, the research centers around developing advanced methods for organic micro pollutant remediation and renewable energy generation. By elucidating the underlying chemical mechanisms and interactions, the aim is to contribute valuable insights into green energy production and pollution control strategies. Through the dedication, i aspire to advance the field of reticular chemistry and foster a cleaner, healthier planet for current and future generations.
The accomplished research interests in chemistry encompass the fascinating realm of nanomaterials and their applications in sustainable energy technologies. With a keen focus on innovative material design, the aim is to explore novel synthesis methods to engineer functional nanomaterials that can enhance the efficiency of catalytic processes for clean energy production. By delving into the intricate interplay of MOF and MOF derived photocatalysts and its reactivity at the nanoscale, the research seeks to unlock new avenues for improving energy conversion and storage systems. With a profound commitment to addressing pressing global challenges, the research centers around developing advanced methods for organic micro pollutant remediation and renewable energy generation. By elucidating the underlying chemical mechanisms and interactions, the aim is to contribute valuable insights into green energy production and pollution control strategies. Through the dedication, i aspire to advance the field of reticular chemistry and foster a cleaner, healthier planet for current and future generations.
Quest for.....
Quest for.....
Rational design of MOFs and MOF derived nanomaterial with desired functionalities for specific applications.
Exploring new ligands and metal combinations to expand the diversity of MOF structures.
Understanding the role of MOF structure in catalytic activity and selectivity.
Immobilizing catalytically active sites within MOF pores to enhance performance.
Utilizing MOFs as templates for the synthesis of nanoparticles with controlled size and composition.
Investigating the catalytic, magnetic, or optical properties of MOF-derived nanomaterials.
Developing MOFs with catalytic centers that promote CO2 adsorption and conversion.
Incorporating metal sites into MOF frameworks to enhance catalytic activity.
Converting CO2 into valuable chemical feedstocks, reducing greenhouse gas emissions.
Fun with Nano Machines !!
Fun with Nano Machines !!
FESEM
FESEM
Exploring Morphology of Nanomterials
XRD
XRD
Diving into the planes of crystal lattice
HRTEM
HRTEM
High resolution imaging of photocatalysts
"Exploring the Inner Structure: A Journey in Material Characterization by me"
"Undertaking a profound exploration into material characterization, my research delves into unraveling the intricate properties and behaviors of diverse substances. By employing a spectrum of advanced analytical techniques, I aim to illuminate the fundamental structure-property relationships, thereby contributing to the optimization of materials for a myriad of applications."
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