Company Filing History:

13 out of 8,898

Nikon Corporation

patents

7 out of 1,285

The University of Tokyo

patents

where one patent can have more than one assignee

Years Active: 2012-2024

Loading Chart...

13 patents (USPTO):Sort by Forward CitationsExplore Patents

1. 11982602 - Fluidic device, system, and mixing method (2024-05-14),

2. 11192106 - Fluidic device, system, method of detecting sample material and method of purifying sample material (2021-12-07),

3. 10775368 - Fluidic device, system, and method (2020-09-15),

4. 10385305 - Device for measuring activity of cultured cells, microchamber and method of measuring activity of cultured cells (2019-08-20),

5. 10294472 - Nucleic acid linker (2019-05-21),

6. 9952215 - Exosome analysis method, exosome analysis apparatus, antibody-exosome complex, and exosome electrophoresis chip (2018-04-24),

7. 9850535 - Nucleic acid detection method, detection probe, detection probe set, and nucleic acid quantification method (2017-12-26),

8. 9844764 - Protein or peptide printing method, protein array or peptide array, and functional protein or functional peptide identification method (2017-12-19),

9. 9376657 - Culture device (2016-06-28),

10. 9340764 - Transfer device for culture vessel, culture device and holder for culture vessel (2016-05-17),

11. 9334492 - Protein-immobilizing solid phase, polynucleotide-immobilizing solid phase, and nucleic acid recovery method (2016-05-10),

12. 9047502 - Automatic system for judging quality of cell (2015-06-02),

13. 8192983 - Incubator (2012-06-05),

Title: Hirofumi Shiono: Innovator in Fluidic Devices

Introduction

Hirofumi Shiono is a prominent inventor based in Fujisawa, Japan. He has made significant contributions to the field of fluidic devices, holding a total of 13 patents. His work focuses on creating innovative solutions that enhance the efficiency and functionality of fluidic systems.

Latest Patents

One of Shiono's latest patents is a fluidic device, system, and mixing method. This invention provides a fluidic device that allows for the easy acquisition of solutions with varying concentrations. The device consists of a first and second substrate stacked in a thickness direction, featuring an undiluted solution introduction flow path and multiple circulation flow paths. Each circulation flow path is designed to share parts of the flow path with the undiluted solution introduction flow path, ensuring efficient mixing and dilution processes.

Another notable patent is a fluidic device that includes methods for detecting and purifying sample materials. This device incorporates both first and second circulation flow paths that circulate a solution containing sample material. The shared flow path includes various components such as capture units, detection units, valves, and pumps, all aimed at improving the detection and purification of sample materials.

Career Highlights

Hirofumi Shiono has worked with renowned organizations, including Nikon Corporation and the University of Tokyo. His experience in these institutions has allowed him to develop and refine his innovative ideas in fluidic technology.

Collaborations

Shiono has collaborated with notable colleagues such as Takanori Ichiki and Nobuhiko Maiya. Their joint efforts have contributed to advancements in fluidic device technology and its applications.

Conclusion

Hirofumi Shiono's work in fluidic devices exemplifies the impact of innovation in technology. His patents reflect a commitment to enhancing the capabilities of fluidic systems, making significant strides in the field.

This text is generated by artificial intelligence and may not be accurate.

Please report any incorrect information to support@idiyas.com