Steve E Babayan

Title: Steve E. Babayan: Innovator in Atmospheric-Pressure Plasma Technologies

Introduction

Steve E. Babayan, an accomplished inventor based in Huntington Beach, California, has made significant contributions to the field of atmospheric-pressure plasma technology. With 2 patents to his name, Babayan's innovative work primarily focuses on the development of plasma jets that operate at room temperature and atmospheric pressure.

Latest Patents

Babayan's latest patents include "Large Area Atmospheric-Pressure Plasma Jet" and "Deposition of Coatings Using an Atmospheric Pressure Plasma Jet." The first patent describes a plasma discharge mechanism that functions at atmospheric pressure and near room temperature using 13.56 MHz radio frequency power. Unlike conventional plasma torches, this discharge generates a gas-phase effluent with a maximum temperature of 250°C while showcasing non-thermal characteristics. The design utilizes two planar parallel electrodes to create a plasma, producing a jet of metastable and reactive species capable of cleaning and etching various materials.

In his second patent, Babayan explores the use of a nonthermal source capable of operating at 760 torr for deposition purposes. A helium/oxygen gas mixture is introduced into the area between coaxial electrodes, generating a stable plasma jet. The process effectively deposits silicon dioxide films by incorporating tetraethoxysilane (TEOS) into the effluent stream. Notably, this advanced method achieves a deposition rate of 3020±250 Å/min, while controlling parameters such as oxygen partial pressure and rf power affects the rate of deposition.

Career Highlights

Steve E. Babayan is affiliated with the University of California, where he continues to further his research in plasma technologies. His groundbreaking work has set new standards in the field, particularly for applications requiring non-thermal processing and precise material deposition.

Collaborations

Throughout his career, Babayan has collaborated with other notable researchers, including Gary S. Selwyn and Robert F. Hicks. These collaborations have contributed to the advancement of knowledge in atmospheric-pressure plasma applications and enhanced the quality of research outcomes.

Conclusion

Steve E. Babayan stands out as a significant figure in the realm of atmospheric-pressure plasma innovations. His dedicated work and patent contributions help advance technologies that could revolutionize material processing and surface treatment. With ongoing collaboration and research, Babayan's innovations will likely have lasting impacts in various industries.