Pioneering research in bioengineering and materials science is yielding novel solutions for medical challenges. A microfluidic device developed at Cornell automates oocyte cumulus removal, enhancing IVF procedures through vibration-induced flow. Additionally, advancements in chitosan formulations cross therapeutic domains, reflecting versatility in biomedical applications. Breakthroughs in carbon-based materials like graphene and electromagnetic devices further push technology boundaries with potential impacts in diagnostics, drug delivery, and regenerative medicine.