Ongoing research activities

Specializing in material synthesis and characterization, I employ cutting-edge techniques to create novel materials with tailored properties. My expertise extends to meticulous characterization methodologies, ensuring a deep understanding of material behavior. Through this interdisciplinary approach, I strive to contribute to advancements in materials science, fostering innovation and discovery.

Conducting antimicrobial assays is integral to my research, where I evaluate the efficacy of novel compounds against microbial threats. Employing standardized testing methods, I assess the inhibitory effects on bacteria, fungi, and other pathogens. This work involves precise concentration-response analyses and determination of minimum inhibitory concentrations (MIC). By rigorously investigating antimicrobial properties, I aim to contribute valuable insights to the development of antimicrobial agents, addressing the pressing challenge of microbial resistance in healthcare and environmental aspects. 

In material characterization, I employ advanced analytical techniques to scrutinize the composition, structure, and properties of materials. Utilizing methods such as spectroscopy, microscopy, and thermal analysis, I strive to unravel intricate details that inform material behavior. This comprehensive approach enhances our understanding and paves the way for tailored material design and optimization.

Proficient in both in vitro and in silico analysis, I integrate experimental and computational approaches for a holistic understanding of biological processes. Conducting in vitro assays provides real-world insights, while in silico modeling enhances predictions and accelerates drug discovery. This dual methodology ensures robust and comprehensive analyses, advancing biomedical research.