Daesung Kim

Title: Daesung Kim: Innovator in Nanoparticle Analysis

Introduction

Daesung Kim, an accomplished inventor based in Omaha, NE, has made a significant impact in the field of nanoparticle analysis. With a keen focus on technologies that enhance the understanding and detection of nanoparticles, he holds one patent that exemplifies his innovative spirit and technical expertise.

Latest Patents

Daesung Kim's notable patent is titled "Nanoparticle analysis for ultra-low level concentrations of nanoparticles in fluid samples." This invention presents systems and methods for analyzing ultra-low level concentration nanoparticles in semiconductor cleaning chemicals through single particle inductively coupled plasma mass spectrometry (spICP-MS). The methods outlined are designed to include determination factors specific to each chemical matrix and the type of analyte associated with the nanoparticles in fluid samples. These methods aim to enhance the accuracy of particle baseline intensity values and set a reliable nanoparticle detection threshold.

Career Highlights

Throughout his career, Daesung Kim has contributed to various esteemed organizations. Notably, he has worked at Elemental Scientific, Inc., where he honed his skills in chemical analysis and semiconductor technologies. Additionally, his experiences at Samsung Electronics Co., Ltd. further broadened his understanding of cutting-edge innovations in the tech industry.

Collaborations

In his journey as an inventor, Daesung Kim has had the privilege of collaborating with accomplished colleagues, including Myung Hwan Kim and Austin Schultz. These partnerships have undoubtedly enriched his work, allowing for diverse ideas and methodologies to flourish within his research and development projects.

Conclusion

Daesung Kim stands as an inspiring figure in the realm of nanoparticle analysis. His dedication to innovation, evidenced by his patented technology, positions him at the forefront of advancements in semiconductor cleaning chemicals. As he continues to expand his knowledge and contribute to the field, his work will likely influence future innovations in nanoparticle detection and analysis.