Location History:
- Gyeonggi-do, KR (2010)
- Seongnam-si, KR (2010)
Company Filing History:
Years Active: 2010
Title: Innovator Tae-joon Kwon: Pioneering Advances in Probe and Primer Design
Introduction
Tae-joon Kwon is an esteemed inventor based in Gyeonggi-do, South Korea, notable for his significant contributions to the field of biotechnology. With a focus on innovative methods in probe and primer design, Kwon has secured two patents that enhance the accuracy and efficiency of identifying genetic sequences.
Latest Patents
Kwon's latest innovations include a groundbreaking method for designing a probe set and a corresponding microarray. His first patent details a method that facilitates the identification of target sequences from diverse groups through hybridization reactions. It involves selecting target sequences, binding oligonucleotides as probes, and iteratively refining the selection process until all sequences are adequately covered. Additionally, his second patent focuses on creating primer and probe sets designed for identifying target sequences through amplification and hybridization techniques. This method streamlines the design process and results in improved identification of multiple target sequences rapidly and accurately.
Career Highlights
Currently, Tae-joon Kwon is employed at Samsung Electronics Co., Ltd., where he applies his expertise to foster developments in biotechnological solutions. His work is recognized not only for its scientific merit but also for its potential applications in various sectors, including healthcare and diagnostics.
Collaborations
Kwon collaborates with accomplished professionals such as Kyu-sang Lee and Ji-young Oh. Their teamwork serves to enhance the innovative processes and ensures the scientific rigor behind Kwon’s patents, further contributing to the advancement of the biotechnology industry.
Conclusion
Tae-joon Kwon's inventive contributions significantly impact the biotechnology landscape. Through his patents, he demonstrates a commitment to advancing methodologies that improve the identification of genetic sequences, thereby fostering progress in scientific research and practical applications in genetics.