Company Filing History:
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Years Active: 2015-2017
Title: Tsutomu Nagaoka: Innovator in Nanotechnology and Microorganism Detection
Introduction
Tsutomu Nagaoka is a prominent inventor based in Sakai, Japan. He has made significant contributions to the fields of nanotechnology and microorganism detection. With a total of 2 patents, his work showcases innovative approaches to detecting target substances and microorganisms.
Latest Patents
One of Nagaoka's latest patents is a device and method utilizing a metallic nanoparticle assembly structure for detecting a target substance. This invention allows for the detection of trace amounts of a target substance by forming a metallic nanoparticle assembly structure that is modified with a host molecule. The target substance specifically adheres to this structure, enabling detection through the measurement of an extinction spectrum or a surface enhanced Raman scattering (SERS) spectrum.
Another notable patent is a microorganism detection sensor and method of manufacturing the same. This sensor includes a detection unit with a detection electrode and a polymer layer that has a three-dimensional structure complementary to the microorganism's steric structure. The sensor captures the microorganism in the mold, allowing for its detection based on the state of capture.
Career Highlights
Throughout his career, Tsutomu Nagaoka has worked with reputable organizations, including Osaka Prefecture University Public Corporation and Sharp Corporation. His experience in these institutions has contributed to his expertise in the field of nanotechnology and detection methods.
Collaborations
Nagaoka has collaborated with notable colleagues such as Shiho Tokonami and Hiroshi Shiigi. These collaborations have likely enhanced his research and development efforts in his innovative projects.
Conclusion
Tsutomu Nagaoka's contributions to nanotechnology and microorganism detection highlight his role as a significant inventor in these fields. His innovative patents demonstrate a commitment to advancing detection methods, which can have a profound impact on various applications.