ANIKET JADHAV

Proficient skilled in chemical analysis and formulation development. Demonstrated strong analytical research and interpersonal skills while assisting in innovative projects & HPLC and chromatography, contributing to successful drug documentation and validation processes. Passionate about advancing drug discovery through effective collaboration and project planning.

A highly motivated and detail-oriented Medicinal Chemistry Postgraduate with expertise in chemical analysis, formulation and development, chromatography techniques (HPLC, GC) and drug discovery processes.  Skilled in research methodology, analytical techniques, and laboratory instrumentation, with hands-on experience in various synthesis, material characterization, and data interpretation. Passionate about innovative research in nanotechnology and medicinal chemistry, demonstrated through projects involving graphene oxide-silver nanoparticles for glucose detection and magnetic molecularly imprinted polymers for targeted cancer treatment.  Passionate at team collaboration, project planning, and scientific documentation, seeking a dynamic role in research and development or pharmaceutical analysis to contribute effectively to cutting-edge discoveries.

• Coordinator in Exploring new horizon in chemical science. • 2ND Prize in Inter collage drawing competition. • PICT IEEE Completed workshop of robotics workshop by credenz’16

•   SYNTHESIS OF REDUCED GRAPHENE OXIDE WITH SILVER NANO PARTICAL 2024

This project describes the  synthesis of superior quality graphene oxide with silver nanoparticles by the one pot /hammers method and is characterized by various analytical techniques such as XRD, and XPF UV spectroscopy this characterization shows the purity of synthesized material. The composite of GO-silver nanoparticles exhibits excellent electrolytic activity for glucose oxidation with high sensitivity and selectivity. The purpose of the product is to develop sensitive and selective sensors for glucose detection through the synthesis of GO and silver nanoparticles which are used for the diagnosis and management of diabetic precisely diabetic mellitus and cancer patient.

• Fluorescent – Magnetic Molecularly Imprinted Polymer as an effective theragnostic material for 5-Flurouracil in Breast Cancer Treatment

Project explores a new material for targeted breast cancer therapy. It combines magnetic nanoparticles for drug delivery with a "smart" polymer that recognizes and binds to the drug 5-fluorouracil. This theragnostic material also incorporates a fluorescent material for tumor imaging, allowing for treatment monitoring.

• Exploring Trehalose enzyme in Mycobacterium tuberculosis: Insights and Implication

This project described the sequence characterization in silico by homology search, multiple sequence alignment and phylogenetic tree construction revealing its identity to other trehalose. Then molecular cloning of a gene fragment, encoding the catalytically active trehalose from Mycobacteria tuberculosis (Mtb Tre) and its heterologous expression in Escherichia coli. The gene was overexpressed in vector and investigated for variable expression, purification and inhibitory activity analysis of the recombinant enzyme Substrate analogue was used and its effect on mycobacterial growth using lab strain Mycobacterium smegmas was checked.

• MS-Office • PowerPoint • Chem Draw • Origine 8.0 • SciFinder