Development of the manufacturing process for Ultra-high molecular weight polyethylene (UHMWPE) a thermoplastic polymer with long chains of polyethylene that has many uses, including in joint replacements, and other orthopedic surgeries. This paved the way for Nanoshel to break the global supply duopoly and provide Indian market with an alternative - reducing the ₹2,000 Cr. import.

Development of advanced glucometer strips and glucose detection kits for accurate, rapid blood glucose monitoring. The strips employed four micro-3D printed layers stacked to achieve the desired results, paving the way for low-cost glucose detection. The devices developed ensured precise readings with minimal sample volume and enhanced sensitivity.

The invention introduces a diagnostic kit for thyroid and lipid metabolic disorders, featuring microfluidic channels designed using advanced 3D printing techniques. This innovative approach enables precise and efficient disease diagnosis, enhancing accuracy and accessibility for detecting thyroid and lipid-related health conditions, offering a promising tool for medical applications.

Invention of a portable hypersensitivity biosensor that fits into a pocket. It allowed the user to qualitatively and quantitatively test the lactose content in food and adjust or avoid the lactose containing food in the diet. The compact form factor was achieved by exploiting the advantages of 3D printing techniques.

The lightweight 3D printed prosthetic leg for transtibial amputees includes a socket, adjustable rod, pivot mechanism, and foot assembly. It offers water resistance, pressure reduction, flexibility, and load-bearing capacity. The skin-friendly design ensures comfort, while its versatile structure accommodates most amputees, providing an effective and durable solution.