![Tihiro Ohkawa](https://cdn.zonebourse.com/static/resize/768/576//static/images/insiders/unknown.png)
Tihiro Ohkawa
President chez Toyo Technologies, Inc.
Relations actives
Nom | Sexe | Age | Sociétés liées | Collaboration |
---|---|---|---|---|
Richard Chatham Atkinson | M | 94 |
University of California San Diego
| 44 ans |
Nicole Steinmetz | M | 45 |
University of California San Diego
| - |
John P. Feighner | M | - |
University of California San Diego
| 54 ans |
Roberto Padovani | M | 70 |
University of California San Diego
| - |
Diego Miralles | M | 62 |
University of California San Diego
| - |
Terence Davidson | M | - |
University of California San Diego
| - |
Bettina Experton | M | - |
University of California San Diego
| - |
Seth Cohen | M | - |
University of California San Diego
| - |
Darcy C. Bingham | F | - |
University of California San Diego
| - |
Charles W. Kerber | M | - |
University of California San Diego
| - |
Mickey S. Coffler | M | - |
University of California San Diego
| - |
John Riley | M | - |
University of California San Diego
| - |
Susan Salka | F | 59 |
University of California San Diego
| - |
Gregory Feld | M | - |
University of California San Diego
| - |
Art Ellis | M | - |
University of California San Diego
| - |
Robert Sullivan | M | - |
University of California San Diego
| - |
Frieder Seible | M | - |
University of California San Diego
| - |
David Brenner | M | - |
University of California San Diego
| - |
Sanford A. Lakoff | M | - |
University of California San Diego
| - |
Mihir Bellare | M | - |
University of California San Diego
| - |
Jeffrey Harris | M | - |
University of California San Diego
| - |
Lewis J. Rubin | M | - |
University of California San Diego
| - |
Martha Dennis | M | - |
University of California San Diego
| - |
David A. Gough | M | - |
University of California San Diego
| - |
Sanjiv M. Narayan | M | - |
University of California San Diego
| 16 ans |
Joseph L. Witztum | M | - |
University of California San Diego
| - |
Richard Feinberg | M | 76 |
University of California San Diego
| 28 ans |
Danielle Dawson | F | - |
University of California San Diego
| - |
Julie Sully | F | - |
University of California San Diego
| - |
Michael Turk | M | - |
University of California San Diego
| - |
Stanley Faer | M | - |
University of California San Diego
| - |
Cristina Chiriboga-Hahn | F | - |
University of California San Diego
| - |
Eddie Island | M | - |
University of California San Diego
| - |
William De La Peña | M | - |
University of California San Diego
| - |
Christine Kehoe | F | - |
University of California San Diego
| - |
Adah Almutairi | F | 48 |
University of California San Diego
| - |
Albert Hsiao | M | - |
University of California San Diego
| - |
Jonathan Pokorski | M | - |
University of California San Diego
| - |
Eugene Yeo | M | 47 |
University of California San Diego
| - |
Bruce Zuraw | M | - |
University of California San Diego
| - |
Richard Somerville | M | - |
University of California San Diego
| - |
Steven Edelman | M | 68 |
University of California San Diego
| - |
Stuart Brown | M | - |
University of California San Diego
| - |
William Sandborn | M | 61 |
University of California San Diego
| 13 ans |
Marsha Chandler | M | 79 |
University of California San Diego
| 27 ans |
Lo Yu-Hwa | M | - |
University of California San Diego
| - |
David Young | M | - |
University of California San Diego
| - |
Thomas J. Kipps | M | - |
University of California San Diego
| - |
Kevin T. Murphy | M | - |
University of California San Diego
| - |
Michael Berthelot | M | 73 |
University of California San Diego
| - |
Antonino Catanzaro | M | - |
University of California San Diego
| - |
John Otterson | M | - |
University of California San Diego
| - |
Erik Engelson | M | 64 |
University of California San Diego
| - |
Michael W. Dae | M | - |
University of California San Diego
| - |
Michael Karin | M | - |
University of California San Diego
| 38 ans |
Ann Ryder Randolph | F | - |
University of California San Diego
| - |
Dennis A. Carson | M | 77 |
University of California San Diego
| 34 ans |
Ronald L. Graham | M | 88 |
University of California San Diego
| 25 ans |
Stephen B. Howell | M | 79 |
University of California San Diego
| 47 ans |
Charles Kossman | M | - |
University of California San Diego
| - |
Robert W. Conn | M | 81 |
University of California San Diego
| 20 ans |
Lawrence B. Krause | M | 93 |
University of California San Diego
| 38 ans |
Peter Farrell | M | 81 |
University of California San Diego
| - |
Antonio J. Grillo-López | M | 84 |
University of California San Diego
| - |
Gordon Hanson | M | 60 |
University of California San Diego
| 23 ans |
Lin-Tsing Yu | M | 80 |
University of California San Diego
| 30 ans |
Donald Rosenberg | M | 73 |
University of California San Diego
| - |
Edward A. Dennis | M | 82 |
University of California San Diego
| 54 ans |
Walter H. Ku | M | 88 |
University of California San Diego
| - |
Patrick Joseph Kilkenny | M | - |
University of California San Diego
| - |
Anne L. Evans | F | - |
University of California San Diego
| - |
Edward Holmes | M | 83 |
University of California San Diego
| - |
C. Lowell Parsons | M | 78 |
University of California San Diego
| 36 ans |
Jeremy Jackson | M | - |
University of California San Diego
| - |
Rajesh Gupta | M | - |
University of California San Diego
| - |
Allan T. Bombard | M | 71 |
University of California San Diego
| - |
Peter Rosen | M | - |
University of California San Diego
| - |
Steven F. Dowdy | M | - |
University of California San Diego
| - |
Adam Dodd | M | - |
University of California San Diego
| - |
Pradeep K. Khosla | M | 67 |
University of California San Diego
| - |
Franz X. Birkner | M | - |
University of California San Diego
| - |
Bernhard O. Palsson | M | - |
University of California San Diego
| - |
David Grooms | M | - |
University of California San Diego
| - |
Michael S. Chapin | M | - |
University of California San Diego
| - |
Amir Kalali | M | 58 |
University of California San Diego
| - |
Yujiro Hata | M | 49 |
University of California San Diego
| - |
Peter F. Cowhey | M | - |
University of California San Diego
| - |
Tony Chou | M | 63 |
University of California San Diego
| 30 ans |
Justin A. Zivin | M | - |
University of California San Diego
| - |
Adam Simpson | M | 49 |
University of California San Diego
| - |
Carolyn M. Maduza | F | - |
University of California San Diego
| - |
Paul M. Goldfarb | M | - |
University of California San Diego
| - |
Jeffrey Stephen Davidow | M | 80 |
University of California San Diego
| - |
Manish Sheth | M | - |
University of California San Diego
| - |
Graphique Relationnel
Relation dans plusieurs entreprises
Anciennes relations
Nom | Sexe | Age | Sociétés liées | Collaboration |
---|---|---|---|---|
Ichiro Yanagisawa | M | - |
Nano Fusion Technologies, Inc.
![]() Nano Fusion Technologies, Inc. Industrial MachineryProducer Manufacturing Nano Fusion Technologies, Inc. (NFT) is providing micro-fluidics solutions, i.e., 'control of micro fluids'. There have been efforts for the research and development of micro-fluidics technology but it is not yet at commercialization although many advantages are promising. One of the barriers to make the micro-fluidics technology commercialization is a micro pump deployed with the technology. A pump for non-micro fluids applications is commercialized with a developed technology but it is still premature for micro-fluids applications. NFT believes that development of a micro pump controlling micro sized fluid is the first step for its mission. NFT has developed micro electro-osmotic pumps (micro EO pumps) and related technologies. NFT's micro EO pumps have many advantages such as the smallest size in the world (Diameter: 8 mm, Thickness: 4 mm, Weight: 0.4 g, Q-max: 70 µL/min and P-max: 120 kPa @18 V for methanol), high pressures, no pulsations, immediate response time, low operation voltages. EO pumps have some disadvantages such as bubbles and performance volatility on sorts of fluids to be controlled. However, NFT has developed technologies to mitigate or solve them. 'Micro-fluidics' is generally meant to be a technology for life science and chemistry which have been handling fluid. However, NFT believes the micro-fluidics in wider senses. For example, NFT is a pioneer for applying the micro fluidics technology to micro fuel cells. NFT has its own manufacturing facility and supplies products as well as is a technology provider and system integrator of the micro-fluidics technologies. | 3 ans |
Masana Nishikawa | M | - |
Nano Fusion Technologies, Inc.
![]() Nano Fusion Technologies, Inc. Industrial MachineryProducer Manufacturing Nano Fusion Technologies, Inc. (NFT) is providing micro-fluidics solutions, i.e., 'control of micro fluids'. There have been efforts for the research and development of micro-fluidics technology but it is not yet at commercialization although many advantages are promising. One of the barriers to make the micro-fluidics technology commercialization is a micro pump deployed with the technology. A pump for non-micro fluids applications is commercialized with a developed technology but it is still premature for micro-fluids applications. NFT believes that development of a micro pump controlling micro sized fluid is the first step for its mission. NFT has developed micro electro-osmotic pumps (micro EO pumps) and related technologies. NFT's micro EO pumps have many advantages such as the smallest size in the world (Diameter: 8 mm, Thickness: 4 mm, Weight: 0.4 g, Q-max: 70 µL/min and P-max: 120 kPa @18 V for methanol), high pressures, no pulsations, immediate response time, low operation voltages. EO pumps have some disadvantages such as bubbles and performance volatility on sorts of fluids to be controlled. However, NFT has developed technologies to mitigate or solve them. 'Micro-fluidics' is generally meant to be a technology for life science and chemistry which have been handling fluid. However, NFT believes the micro-fluidics in wider senses. For example, NFT is a pioneer for applying the micro fluidics technology to micro fuel cells. NFT has its own manufacturing facility and supplies products as well as is a technology provider and system integrator of the micro-fluidics technologies. | 6 ans |
Tomoyuki Morikawa | M | - |
Nano Fusion Technologies, Inc.
![]() Nano Fusion Technologies, Inc. Industrial MachineryProducer Manufacturing Nano Fusion Technologies, Inc. (NFT) is providing micro-fluidics solutions, i.e., 'control of micro fluids'. There have been efforts for the research and development of micro-fluidics technology but it is not yet at commercialization although many advantages are promising. One of the barriers to make the micro-fluidics technology commercialization is a micro pump deployed with the technology. A pump for non-micro fluids applications is commercialized with a developed technology but it is still premature for micro-fluids applications. NFT believes that development of a micro pump controlling micro sized fluid is the first step for its mission. NFT has developed micro electro-osmotic pumps (micro EO pumps) and related technologies. NFT's micro EO pumps have many advantages such as the smallest size in the world (Diameter: 8 mm, Thickness: 4 mm, Weight: 0.4 g, Q-max: 70 µL/min and P-max: 120 kPa @18 V for methanol), high pressures, no pulsations, immediate response time, low operation voltages. EO pumps have some disadvantages such as bubbles and performance volatility on sorts of fluids to be controlled. However, NFT has developed technologies to mitigate or solve them. 'Micro-fluidics' is generally meant to be a technology for life science and chemistry which have been handling fluid. However, NFT believes the micro-fluidics in wider senses. For example, NFT is a pioneer for applying the micro fluidics technology to micro fuel cells. NFT has its own manufacturing facility and supplies products as well as is a technology provider and system integrator of the micro-fluidics technologies. | - |
Takaaki Konno | M | - |
Nano Fusion Technologies, Inc.
![]() Nano Fusion Technologies, Inc. Industrial MachineryProducer Manufacturing Nano Fusion Technologies, Inc. (NFT) is providing micro-fluidics solutions, i.e., 'control of micro fluids'. There have been efforts for the research and development of micro-fluidics technology but it is not yet at commercialization although many advantages are promising. One of the barriers to make the micro-fluidics technology commercialization is a micro pump deployed with the technology. A pump for non-micro fluids applications is commercialized with a developed technology but it is still premature for micro-fluids applications. NFT believes that development of a micro pump controlling micro sized fluid is the first step for its mission. NFT has developed micro electro-osmotic pumps (micro EO pumps) and related technologies. NFT's micro EO pumps have many advantages such as the smallest size in the world (Diameter: 8 mm, Thickness: 4 mm, Weight: 0.4 g, Q-max: 70 µL/min and P-max: 120 kPa @18 V for methanol), high pressures, no pulsations, immediate response time, low operation voltages. EO pumps have some disadvantages such as bubbles and performance volatility on sorts of fluids to be controlled. However, NFT has developed technologies to mitigate or solve them. 'Micro-fluidics' is generally meant to be a technology for life science and chemistry which have been handling fluid. However, NFT believes the micro-fluidics in wider senses. For example, NFT is a pioneer for applying the micro fluidics technology to micro fuel cells. NFT has its own manufacturing facility and supplies products as well as is a technology provider and system integrator of the micro-fluidics technologies. | - |
Masataka Ogawa | M | - |
Nano Fusion Technologies, Inc.
![]() Nano Fusion Technologies, Inc. Industrial MachineryProducer Manufacturing Nano Fusion Technologies, Inc. (NFT) is providing micro-fluidics solutions, i.e., 'control of micro fluids'. There have been efforts for the research and development of micro-fluidics technology but it is not yet at commercialization although many advantages are promising. One of the barriers to make the micro-fluidics technology commercialization is a micro pump deployed with the technology. A pump for non-micro fluids applications is commercialized with a developed technology but it is still premature for micro-fluids applications. NFT believes that development of a micro pump controlling micro sized fluid is the first step for its mission. NFT has developed micro electro-osmotic pumps (micro EO pumps) and related technologies. NFT's micro EO pumps have many advantages such as the smallest size in the world (Diameter: 8 mm, Thickness: 4 mm, Weight: 0.4 g, Q-max: 70 µL/min and P-max: 120 kPa @18 V for methanol), high pressures, no pulsations, immediate response time, low operation voltages. EO pumps have some disadvantages such as bubbles and performance volatility on sorts of fluids to be controlled. However, NFT has developed technologies to mitigate or solve them. 'Micro-fluidics' is generally meant to be a technology for life science and chemistry which have been handling fluid. However, NFT believes the micro-fluidics in wider senses. For example, NFT is a pioneer for applying the micro fluidics technology to micro fuel cells. NFT has its own manufacturing facility and supplies products as well as is a technology provider and system integrator of the micro-fluidics technologies. | 2 ans |
Yoshi Nomura | M | - |
Nano Fusion Technologies, Inc.
![]() Nano Fusion Technologies, Inc. Industrial MachineryProducer Manufacturing Nano Fusion Technologies, Inc. (NFT) is providing micro-fluidics solutions, i.e., 'control of micro fluids'. There have been efforts for the research and development of micro-fluidics technology but it is not yet at commercialization although many advantages are promising. One of the barriers to make the micro-fluidics technology commercialization is a micro pump deployed with the technology. A pump for non-micro fluids applications is commercialized with a developed technology but it is still premature for micro-fluids applications. NFT believes that development of a micro pump controlling micro sized fluid is the first step for its mission. NFT has developed micro electro-osmotic pumps (micro EO pumps) and related technologies. NFT's micro EO pumps have many advantages such as the smallest size in the world (Diameter: 8 mm, Thickness: 4 mm, Weight: 0.4 g, Q-max: 70 µL/min and P-max: 120 kPa @18 V for methanol), high pressures, no pulsations, immediate response time, low operation voltages. EO pumps have some disadvantages such as bubbles and performance volatility on sorts of fluids to be controlled. However, NFT has developed technologies to mitigate or solve them. 'Micro-fluidics' is generally meant to be a technology for life science and chemistry which have been handling fluid. However, NFT believes the micro-fluidics in wider senses. For example, NFT is a pioneer for applying the micro fluidics technology to micro fuel cells. NFT has its own manufacturing facility and supplies products as well as is a technology provider and system integrator of the micro-fluidics technologies. | - |
Statistiques
Pays | Relations | % du total |
---|---|---|
Etats-Unis | 94 | 94,00% |
Japon | 6 | 6,00% |
Age des relations
Actives
Passées
Homme
Femme
Administrateurs
Exécutifs
Provenance des relations
- Bourse
- Insiders
- Tihiro Ohkawa
- Réseau Personnel