Mina-Elraheb Saad Hanna

Title: Innovations and Contributions of Mina-Elraheb Saad Hanna

Introduction

Mina-Elraheb Saad Hanna is a prominent inventor based in Stanford, CA (US). She has made significant contributions to the field of sensitive materials and brain activity stimulation. With a total of 3 patents, her work showcases innovative methods that push the boundaries of technology and science.

Latest Patents

One of her latest patents is a method for lithographic patterning of sensitive materials. This invention involves techniques for patterning highly sensitive materials, such as organic semiconductors and biomolecular materials, with photolithographic resolution. The process includes forming a germanium mask on the surface of the sensitive material to protect it from harsh chemicals. After patterning a microlithography mask on the germanium layer, the exposed germanium is removed by dissolving it in water. This method ensures that the sensitive material is only exposed to water during the patterning process, thereby minimizing potential damage.

Another notable patent is a deep-brain probe and method for recording and stimulating brain activity. This probe consists of a wire bundle with multiple wires, an integrated circuit with several electrodes, and an interposer that connects the wire bundle to the integrated circuit. Each electrode is electrically connected to a different wire, allowing for effective brain activity monitoring and stimulation.

Career Highlights

Mina-Elraheb Saad Hanna has worked with esteemed institutions such as Leland Stanford Junior University and The Francis Crick Institute Limited. Her experience in these organizations has contributed to her expertise and innovative capabilities in her field.

Collaborations

Mina has collaborated with notable individuals, including Nicholas A Melosh and Matt R Angle. These partnerships have further enhanced her research and development efforts.

Conclusion

Mina-Elraheb Saad Hanna's contributions to the fields of sensitive materials and brain activity stimulation are noteworthy. Her innovative patents reflect her dedication to advancing technology and improving scientific understanding.