Sae-ra Kang

Title: Sae-ra Kang: Innovator in Graphene Fabrication

Introduction

Sae-ra Kang is a prominent inventor based in Asan-si, South Korea. She has made significant contributions to the field of materials science, particularly in the fabrication of graphene. With a total of 2 patents, her work has garnered attention for its innovative approaches and practical applications.

Latest Patents

Sae-ra Kang's latest patents include methods of fabricating graphene using an alloy catalyst. This method involves forming an alloy catalyst layer that includes nickel on a substrate and subsequently forming a graphene layer by supplying hydrocarbon gas onto the alloy catalyst layer. The alloy catalyst layer may also include other metals such as copper, platinum, iron, and gold. By utilizing a catalyst metal that reduces the solubility of carbon in nickel, she is able to adjust the amount of carbon dissolved and fabricate a uniform graphene monolayer.

Another notable patent focuses on methods of manufacturing and transferring larger-sized graphene layers. This method includes forming a graphene layer, a protection layer, and an adhesive layer on a substrate before removing the substrate. The graphene layer can then be transferred onto a new substrate by sliding it onto the transferring substrate, allowing for larger applications of graphene in various industries.

Career Highlights

Throughout her career, Sae-ra Kang has worked with leading organizations such as Samsung Electronics Co., Ltd. and Sungkyunkwan University. Her experience in these prestigious institutions has allowed her to develop her expertise in graphene technology and materials science.

Collaborations

Sae-ra has collaborated with notable colleagues, including Yun-sung Woo and David Seo. These partnerships have contributed to her innovative research and development in the field of graphene fabrication.

Conclusion

Sae-ra Kang is a trailblazer in the field of graphene technology, with her patents showcasing innovative methods for fabrication and transfer. Her contributions are paving the way for advancements in materials science and have the potential to impact various industries significantly.