Company Filing History:
Years Active: 2023
Title: Prashant Karandikar: Innovator in Diamond-Only Contact Surfaces
Introduction
Prashant Karandikar is an accomplished inventor based in Avondale, PA (US). He has made significant contributions to the field of materials science, particularly in the development of diamond-containing articles. His innovative work focuses on creating composite materials that utilize diamond as a contact surface, enhancing performance in various applications.
Latest Patents
Karandikar holds a patent for "Articles having diamond-only contact surfaces." This patent describes diamond-containing articles engineered to ensure that bodies contacting the article only interact with diamond. One notable application of his invention is in equipment for handling semiconductor wafers, such as vacuum or electrostatic chucks. The patent details a method of lapping a diamond-reinforced reaction-bonded SiC body with progressively finer diamond grit, resulting in diamond particles that stand proud above the surface. Additionally, if the diamond-containing article is electrically conductive, it may be machinable using electrical discharge machining.
Career Highlights
Prashant Karandikar is currently employed at II-VI Delaware, Inc., where he continues to advance his research and development efforts. His work has positioned him as a key player in the field of advanced materials, particularly in applications that require high-performance contact surfaces.
Collaborations
Throughout his career, Karandikar has collaborated with notable colleagues, including Daniel Mastrobattisto and Edward Gratrix. These collaborations have contributed to the successful development and implementation of his innovative ideas.
Conclusion
Prashant Karandikar's contributions to the field of materials science, particularly through his patent on diamond-only contact surfaces, highlight his role as a leading inventor. His work not only enhances the performance of semiconductor handling equipment but also paves the way for future innovations in advanced materials.