List of Physics and chemistry equipment products
- classification:Physics and chemistry equipment
3601~3645 item / All 14631 items
For those who have isolators. Achieving high chemical resistance and workability. Low cost and short delivery times are also possible for glove box and isolator gloves.
- Work gloves
Notice of participation in 'INTERPHEX Week Tokyo' from May 20 (Wednesday) to May 22 (Friday), 2026.
Ito Corporation will be exhibiting at "INTERPHEX Week Tokyo" held at Makuhari Messe. This exhibition is the largest in Japan, showcasing a wide range of products and services related to the research and manufacturing of pharmaceuticals, cosmetics, and regenerative medicine from 25 countries and regions around the world. Pharmaceutical and cosmetic manufacturers, as well as regenerative medicine companies, will be attending from all over the globe. We will be showcasing "Gloves for Glove Boxes/Isolators" manufactured by Tron Power. We look forward to your visit.
Direct measurement of transporter currents in a label-free and real-time manner without using fluorescent probes or radiolabeled ligands.
- Other physicochemical equipment
- Other Analysis
- Analytical Equipment
[Seminar Announcement] Membrane Physiology Symposium Japan 2025
We are pleased to announce that Nanion Technologies Japan Co., Ltd. will co-host the Membrane Physiology Symposium Japan 2025 in collaboration with Professor Hideaki Kato's laboratory at the University of Tokyo's Advanced Research Center. Following the symposium, we will also hold a modest networking event, and we warmly invite you to participate. For details on the program and other information, please refer to the related PDF documents. Speakers (in alphabetical order): - Dr. Kenji Akiyoshi | Keio University, Faculty of Pharmacy - Dr. Shuutarou Katsurabayashi | Fukuoka University, Faculty of Pharmacy - Dr. Hideaki Kato | University of Tokyo, Advanced Research Center - Dr. Tomoya Kubota | Osaka University Graduate School of Medicine - Dr. Shin Hamamoto | University of Tokyo Graduate School of Agricultural and Life Sciences - Dr. Yuichiro Miyaoka | Tokyo Metropolitan Institute of Medical Science - Dr. Chai-Ann Ng | Victor Chang Cardiac Research Institute - Dr. Alexandre Santinho | Oria Bioscience - Dr. Will Seibertz | Nanion Technologies GmbH - Dr. Martin Ziller | Nanion Technologies GmbH
![[Validated Target List] Transporter...](https://image.mono.ipros.com/public/product/image/28d/2001456044/IPROS68796197354543388674.jpeg?w=280&h=280){kind=small}
You can provide a list of validated targets for the transporter activity measurement device SURFE²R.
- Other physicochemical equipment
- Other Analysis
- Analytical Equipment
[Exhibition Information] 19th Annual Transporter Research Conference
We would like to inform you that we will be exhibiting products and holding a corporate symposium at the 19th Annual Meeting of the Transporter Research Society. If you are planning to attend, please feel free to stop by. ❚ 19th Annual Meeting of the Transporter Research Society Date: May 31 (Saturday) - June 1 (Sunday), 2024 Venue: Okayama University Tsushima Campus, 50th Anniversary Memorial Hall For details, please visit the official website of the 19th Annual Meeting of the Transporter Research Society. URL: https://sites.google.com/view/jtra19/%E3%83%9B%E3%83%BC%E3%83%A0?authuser=0 ❚ Products Scheduled for Exhibition - Transporter Activity Measurement Device | SURFE²R N1 This device can measure transporter currents directly in a label-free and real-time manner without using fluorescent probes or radiolabeled ligands.
![[Measurement Example] TMEM175 | SUR...](https://image.mono.ipros.com/public/product/image/3d0/2001467596/IPROS72889580114877665708.jpeg?w=280&h=280){kind=small}
We will introduce a measurement example of TMEM175 using SURFE²R 96SE.
- Other physicochemical equipment
- Other Analysis
- Analytical Equipment
Direct measurement of transporter currents in a label-free and real-time manner without using fluorescent probes or radiolabeled ligands.
- Other physicochemical equipment
- Other Analysis
- Analytical Equipment
[Seminar Announcement] Membrane Physiology Symposium Japan 2025
We are pleased to announce that Nanion Technologies Japan Co., Ltd. will co-host the Membrane Physiology Symposium Japan 2025 in collaboration with Professor Hideaki Kato's laboratory at the University of Tokyo's Advanced Research Center. Following the symposium, we will also hold a modest networking event, and we warmly invite you to participate. For details on the program and other information, please refer to the related PDF documents. Speakers (in alphabetical order): - Dr. Kenji Akiyoshi | Keio University, Faculty of Pharmacy - Dr. Shuutarou Katsurabayashi | Fukuoka University, Faculty of Pharmacy - Dr. Hideaki Kato | University of Tokyo, Advanced Research Center - Dr. Tomoya Kubota | Osaka University Graduate School of Medicine - Dr. Shin Hamamoto | University of Tokyo Graduate School of Agricultural and Life Sciences - Dr. Yuichiro Miyaoka | Tokyo Metropolitan Institute of Medical Science - Dr. Chai-Ann Ng | Victor Chang Cardiac Research Institute - Dr. Alexandre Santinho | Oria Bioscience - Dr. Will Seibertz | Nanion Technologies GmbH - Dr. Martin Ziller | Nanion Technologies GmbH
No pipetting operations are required during the experiment. It is equipped with a benchtop dispensing device that can automatically measure up to 48 cells continuously in an auto patch clamp system.
- Other physicochemical equipment
- Patch clamp system
- Analytical Equipment
[Seminar Announcement] Membrane Physiology Symposium Japan 2025
We are pleased to announce that Nanion Technologies Japan Co., Ltd. will co-host the Membrane Physiology Symposium Japan 2025 in collaboration with Professor Hideaki Kato's laboratory at the University of Tokyo's Advanced Research Center. Following the symposium, we will also hold a modest networking event, and we warmly invite you to participate. For details on the program and other information, please refer to the related PDF documents. Speakers (in alphabetical order): - Dr. Kenji Akiyoshi | Keio University, Faculty of Pharmacy - Dr. Shuutarou Katsurabayashi | Fukuoka University, Faculty of Pharmacy - Dr. Hideaki Kato | University of Tokyo, Advanced Research Center - Dr. Tomoya Kubota | Osaka University Graduate School of Medicine - Dr. Shin Hamamoto | University of Tokyo Graduate School of Agricultural and Life Sciences - Dr. Yuichiro Miyaoka | Tokyo Metropolitan Institute of Medical Science - Dr. Chai-Ann Ng | Victor Chang Cardiac Research Institute - Dr. Alexandre Santinho | Oria Bioscience - Dr. Will Seibertz | Nanion Technologies GmbH - Dr. Martin Ziller | Nanion Technologies GmbH
![[Measurement Example] DRG neuron | ...](https://image.mono.ipros.com/public/product/image/a6b/2001484411/IPROS28693446409585980365.jpeg?w=280&h=280){kind=small}
We will introduce a case study of DRG neuron measurement using SyncroPatch.
- Other physicochemical equipment
- Patch clamp system
- Analytical Equipment
An automated patch clamp system capable of meeting all needs, from small-scale screening projects to high-throughput screening.
- Other physicochemical equipment
- Patch clamp system
- Analytical Equipment
[Seminar Announcement] Membrane Physiology Symposium Japan 2025
We are pleased to announce that Nanion Technologies Japan Co., Ltd. will co-host the Membrane Physiology Symposium Japan 2025 in collaboration with Professor Hideaki Kato's laboratory at the University of Tokyo's Advanced Research Center. Following the symposium, we will also hold a modest networking event, and we warmly invite you to participate. For details on the program and other information, please refer to the related PDF documents. Speakers (in alphabetical order): - Dr. Kenji Akiyoshi | Keio University, Faculty of Pharmacy - Dr. Shuutarou Katsurabayashi | Fukuoka University, Faculty of Pharmacy - Dr. Hideaki Kato | University of Tokyo, Advanced Research Center - Dr. Tomoya Kubota | Osaka University Graduate School of Medicine - Dr. Shin Hamamoto | University of Tokyo Graduate School of Agricultural and Life Sciences - Dr. Yuichiro Miyaoka | Tokyo Metropolitan Institute of Medical Science - Dr. Chai-Ann Ng | Victor Chang Cardiac Research Institute - Dr. Alexandre Santinho | Oria Bioscience - Dr. Will Seibertz | Nanion Technologies GmbH - Dr. Martin Ziller | Nanion Technologies GmbH
![[Measurement Example] NaV1.7 | Port...](https://image.mono.ipros.com/public/product/image/020/2001485035/IPROS05500046213530348317.jpeg?w=280&h=280){kind=small}
We will introduce a case study of NaV1.7 measurements using Port-a-Patch.
- Other physicochemical equipment
- Patch clamp system
- Analytical Equipment
![[Measurement Example] TRPA1 | Port-...](https://image.mono.ipros.com/public/product/image/212/2000996718/IPROS23382044325709946761.jpeg?w=280&h=280){kind=small}
We will introduce a case study of TRPA1 measurement using Port-a-Patch.
- Other physicochemical equipment
- Patch clamp system
- Analytical Equipment
![[Measurement Example] TRPM8 | Port-...](https://image.mono.ipros.com/public/product/image/fed/2000996969/IPROS48494785894154726797.jpeg?w=280&h=280){kind=small}
We will introduce a case study of TRPM8 measurement using Port-a-Patch.
- Other physicochemical equipment
- Patch clamp system
- Analytical Equipment
![[Measurement Example] TRPV1 / TRPM8...](https://image.mono.ipros.com/public/product/image/98d/2000996997/IPROS82396943805040893157.jpeg?w=280&h=280){kind=small}
We will introduce a case study of TRPV1 / TRPM8 measurement using Port-a-Patch.
- Other physicochemical equipment
- Patch clamp system
- Analytical Equipment
![[Measurement Example] TRPV4 | Port-...](https://image.mono.ipros.com/public/product/image/65a/2000997006/IPROS99238017402041578603.jpeg?w=280&h=280){kind=small}
We will introduce a case study of TRPV4 measurement using Port-a-Patch.
- Other physicochemical equipment
- Patch clamp system
- Analytical Equipment
![[Measurement Example] hERG | Patchl...](https://image.mono.ipros.com/public/product/image/549/2000997088/IPROS26741434291070116024.jpeg?w=280&h=280){kind=small}
We would like to introduce a case study of hERG measurement using Patchliner.
- Other physicochemical equipment
- Patch clamp system
- Analytical Equipment
![[Measurement Example] ASIC3 | Syncr...](https://image.mono.ipros.com/public/product/image/1a1/2001120314/IPROS94566063023020476555.jpeg?w=280&h=280){kind=small}
We will introduce a measurement case of ASIC3 using SyncroPatch.
- Other physicochemical equipment
- Patch clamp system
- Analytical Equipment
![[Measurement Example] Nav1.5 | Sync...](https://image.mono.ipros.com/public/product/image/178/2001120351/IPROS47420964071255335130.jpeg?w=280&h=280){kind=small}
We will introduce a measurement case of Nav1.5 using SyncroPatch.
- Other physicochemical equipment
- Patch clamp system
- Analytical Equipment
![[Measurement Example] Nav1.8 | Patc...](https://image.mono.ipros.com/public/product/image/79f/2001120359/IPROS32174859368174066341.jpeg?w=280&h=280){kind=small}
We will introduce a measurement case of Nav1.8 by Patchliner.
- Other physicochemical equipment
- Patch clamp system
- Analytical Equipment
![[Measurement Example] HCN2 | Syncro...](https://image.mono.ipros.com/public/product/image/9b7/2001120366/IPROS90512620824029987306.jpeg?w=280&h=280){kind=small}
We will introduce a case study of HCN2 measurement using SyncroPatch.
- Other physicochemical equipment
- Patch clamp system
- Analytical Equipment
![[Measurement Example] GABAA | Port-...](https://image.mono.ipros.com/public/product/image/e3d/2001131699/IPROS02952268530616961657.jpeg?w=280&h=280){kind=small}
We will introduce a case study of GABAA measurement using Port-a-Patch.
- Other physicochemical equipment
- Patch clamp system
- Analytical Equipment
![[Measurement Example] hERG / Nav1.5...](https://image.mono.ipros.com/public/product/image/595/2001131708/IPROS61604048530690975565.jpeg?w=280&h=280){kind=small}
We will introduce a case study of hERG / Nav1.5 measurement using Port-a-Patch.
- Other physicochemical equipment
- Patch clamp system
- Analytical Equipment
![[Measurement Example] P2X | SyncroP...](https://image.mono.ipros.com/public/product/image/b27/2001484412/IPROS03033854958080084010.jpeg?w=280&h=280){kind=small}
We will introduce a case study measuring P2X3 and P2X2/3 receptors using SyncroPatch.
- Other physicochemical equipment
- Patch clamp system
- Analytical Equipment
![[Measurement Example] TMEM175 | Syn...](https://image.mono.ipros.com/public/product/image/21b/2001484414/IPROS06374143368544781217.jpeg?w=280&h=280){kind=small}
We will introduce a case study of TMEM175 measurement using SyncroPatch.
- Other physicochemical equipment
- Patch clamp system
- Analytical Equipment
![[Measurement Example] TRP | SyncroP...](https://image.mono.ipros.com/public/product/image/1bc/2001484416/IPROS85251350801296794404.jpeg?w=280&h=280){kind=small}
We will introduce a case study of measuring TRP channels using SyncroPatch.
- Other physicochemical equipment
- Patch clamp system
- Analytical Equipment
![[Measurement Example] Dynamic Clamp...](https://image.mono.ipros.com/public/product/image/399/2001484420/IPROS58114439410598786979.jpeg?w=280&h=280){kind=small}
We would like to introduce a measurement example of dynamic clamp using Patchliner.
- Other physicochemical equipment
- Patch clamp system
- Analytical Equipment
![[Measurement Example] NaV1.5 | Patc...](https://image.mono.ipros.com/public/product/image/397/2001484493/IPROS79437256805042786106.jpeg?w=280&h=280){kind=small}
We will introduce a case study of NaV1.5 measurements using Patchliner.
- Other physicochemical equipment
- Patch clamp system
- Analytical Equipment
![[Measurement Example] DRG Neurons |...](https://image.mono.ipros.com/public/product/image/2d7/2001484490/IPROS51197943463542457351.jpeg?w=280&h=280){kind=small}
We will introduce a case study of DRG neurons measured using Patchliner.
- Other physicochemical equipment
- Patch clamp system
- Analytical Equipment
![[Measurement Example] TRPV3 | Patch...](https://image.mono.ipros.com/public/product/image/4df/2001484495/IPROS60926662807617075040.jpeg?w=280&h=280){kind=small}
We will introduce a case study of TRPV3 measurement using Patchliner.
- Other physicochemical equipment
- Patch clamp system
- Analytical Equipment
![[Measurement Example] nAChR | Patch...](https://image.mono.ipros.com/public/product/image/770/2001484501/IPROS18956288486656719670.jpeg?w=280&h=280){kind=small}
We will introduce a case study of nAChR measurement using Patchliner.
- Other physicochemical equipment
- Patch clamp system
- Analytical Equipment
![[Measurement Example] AMPA | Patchl...](https://image.mono.ipros.com/public/product/image/cbe/2001484504/IPROS32874036110940958850.jpeg?w=280&h=280){kind=small}
We will introduce a case study of AMPA measurement using Patchliner.
- Other physicochemical equipment
- Patch clamp system
- Analytical Equipment
![[Measurement Example] PIEZO1 | Patc...](https://image.mono.ipros.com/public/product/image/802/2001484506/IPROS41368123489055405154.jpeg?w=280&h=280){kind=small}
We would like to introduce a case study of PIEZO1 measurement using Patchliner.
- Other physicochemical equipment
- Patch clamp system
- Analytical Equipment
![[Measurement Example] P2X | Patchli...](https://image.mono.ipros.com/public/product/image/0c9/2001484511/IPROS72575433239022535868.jpeg?w=280&h=280){kind=small}
We will introduce a measurement case of P2X2/3 using Patchliner.
- Other physicochemical equipment
- Patch clamp system
- Analytical Equipment
![[Paper Introduction] PIEZO1 | Syncr...](https://image.mono.ipros.com/public/product/image/54f/2001484439/IPROS02065001091731181781.jpeg?w=280&h=280){kind=small}
I would like to introduce papers related to SyncroPatch.
- Other physicochemical equipment
- Patch clamp system
- Analytical Equipment
![[Paper Introduction] Nav | SyncroPa...](https://image.mono.ipros.com/public/product/image/f9b/2001484434/IPROS31019166726651002067.jpeg?w=280&h=280){kind=small}
I would like to introduce some papers related to SyncroPatch.
- Other physicochemical equipment
- Patch clamp system
- Analytical Equipment
![[Paper Introduction] Cardiomyocytes...](https://image.mono.ipros.com/public/product/image/dc2/2001484429/IPROS22783640008268862421.jpeg?w=280&h=280){kind=small}
I would like to introduce some papers related to SyncroPatch.
- Other physicochemical equipment
- Patch clamp system
- Analytical Equipment
![[Measurement Example] Cardiomyocyte...](https://image.mono.ipros.com/public/product/image/53d/2001485032/IPROS90118434516516139395.jpeg?w=280&h=280){kind=small}
We will introduce a case study of measuring cardiomyocytes using Port-a-Patch.
- Other physicochemical equipment
- Patch clamp system
- Analytical Equipment
We would like to introduce examples of cell and ion channel measurements using our auto patch clamp system.
- Other physicochemical equipment
- Patch clamp system
- Analytical Equipment
Measurement solution for patch clamp.
- Other physicochemical equipment
- Patch clamp system
- Analytical Equipment
This is a document summarizing the differences in necessary equipment and measurement principles between manual patch clamp methods and automated patch clamp systems.
- Other physicochemical equipment
- Patch clamp system
- Analytical Equipment
Under physiological conditions, it is possible to measure the actual contractile force of iPS-derived cardiomyocytes.
- Other physicochemical equipment
- Other Analysis
[Exhibition Information] 34th Annual Meeting of the Japanese Society of Circulatory Pharmacology
We would like to inform you that we will be exhibiting at the 34th Annual Meeting of the Japanese Society of Circulation Pharmacology. If you are planning to attend, please feel free to stop by. ❚ 34th Annual Meeting of the Japanese Society of Circulation Pharmacology Date: December 20, 2024 (Friday) Venue: Granship Shizuoka Exhibition Booth: Room 1003, 10th Floor ❚ Products to be Exhibited - Auto Patch Clamp System | Port-a-Patch | Port-a-Patch mini This compact system eliminates the need for a microscope, vibration isolation table, manipulator, and Faraday cage, which are typically required for standard patch clamp experiments. It does not require specialized skills or experience, allowing for immediate data acquisition and verification at your fingertips. Despite its small size, it can be applied to a variety of ion channel research. - iPS-Derived Cardiomyocyte Measurement System | CardioExcyte 96 | FLEXcyte 96 This system is ideal for evaluating cardiotoxicity, contractility, and drug screening using iPS-derived cardiomyocytes. The FLEXcyte 96 transforms the traditional Langendorff method into a state-of-the-art high-throughput technology, enabling simultaneous measurement of cardiomyocyte contractility under physiological conditions similar to the natural environment of cardiac tissue in 96 wells.
The Langeendorff method has been transformed into the latest high-throughput technology, allowing for the measurement of contractile force in cardiomyocytes under physiological conditions similar to t...
- Other physicochemical equipment
- Other Analysis
[Seminar Announcement] Membrane Physiology Symposium Japan 2025
We are pleased to announce that Nanion Technologies Japan Co., Ltd. will co-host the Membrane Physiology Symposium Japan 2025 in collaboration with Professor Hideaki Kato's laboratory at the University of Tokyo's Advanced Research Center. Following the symposium, we will also hold a modest networking event, and we warmly invite you to participate. For details on the program and other information, please refer to the related PDF documents. Speakers (in alphabetical order): - Dr. Kenji Akiyoshi | Keio University, Faculty of Pharmacy - Dr. Shuutarou Katsurabayashi | Fukuoka University, Faculty of Pharmacy - Dr. Hideaki Kato | University of Tokyo, Advanced Research Center - Dr. Tomoya Kubota | Osaka University Graduate School of Medicine - Dr. Shin Hamamoto | University of Tokyo Graduate School of Agricultural and Life Sciences - Dr. Yuichiro Miyaoka | Tokyo Metropolitan Institute of Medical Science - Dr. Chai-Ann Ng | Victor Chang Cardiac Research Institute - Dr. Alexandre Santinho | Oria Bioscience - Dr. Will Seibertz | Nanion Technologies GmbH - Dr. Martin Ziller | Nanion Technologies GmbH
Measurement of impedance and extracellular potential of iPS-derived cardiomyocytes.
- Other physicochemical equipment
- Other Analysis
[Seminar Announcement] Membrane Physiology Symposium Japan 2025
We are pleased to announce that Nanion Technologies Japan Co., Ltd. will co-host the Membrane Physiology Symposium Japan 2025 in collaboration with Professor Hideaki Kato's laboratory at the University of Tokyo's Advanced Research Center. Following the symposium, we will also hold a modest networking event, and we warmly invite you to participate. For details on the program and other information, please refer to the related PDF documents. Speakers (in alphabetical order): - Dr. Kenji Akiyoshi | Keio University, Faculty of Pharmacy - Dr. Shuutarou Katsurabayashi | Fukuoka University, Faculty of Pharmacy - Dr. Hideaki Kato | University of Tokyo, Advanced Research Center - Dr. Tomoya Kubota | Osaka University Graduate School of Medicine - Dr. Shin Hamamoto | University of Tokyo Graduate School of Agricultural and Life Sciences - Dr. Yuichiro Miyaoka | Tokyo Metropolitan Institute of Medical Science - Dr. Chai-Ann Ng | Victor Chang Cardiac Research Institute - Dr. Alexandre Santinho | Oria Bioscience - Dr. Will Seibertz | Nanion Technologies GmbH - Dr. Martin Ziller | Nanion Technologies GmbH
Easily measure channel activity at the molecular level.
- Other physicochemical equipment
- Analytical Equipment
[Exhibition Information] Membrane Symposium 2025
We would like to inform you that we will be exhibiting our products at the Membrane Symposium 2025. If you are planning to attend, please feel free to stop by. ❚ Products Scheduled for Exhibition - Artificial Lipid Bilayer Experimental Device | Orbit mini You can easily measure channel activity at the single-molecule level. This device allows for the formation of lipid membranes, reconstitution of membrane proteins, and single-channel measurements in experiments using artificial lipid bilayers, all performed with just a micropipette, enabling functional and structural analysis of target membrane proteins and evaluation of drug effects. - Liposome Preparation Device | Vesicle Prep Pro This is the world's first device that can produce giant unilamellar vesicles (GUVs) with diameters ranging from 1 to 30 μm without organic solvents, using the electroporation method (vibrating hydrated lipid films in an alternating electric field). - Auto Patch Clamp System | Port-a-Patch mini This compact system eliminates the need for a microscope, vibration isolation table, manipulator, and Faraday cage, which are typically required for conventional patch clamp experiments. It allows for easy data acquisition and verification without the need for specialized skills or experience.
Easily measure channel activity at the molecular level.
- Other physicochemical equipment
- Analytical Equipment
[Exhibition Information] Membrane Symposium 2025
We would like to inform you that we will be exhibiting our products at the Membrane Symposium 2025. If you are planning to attend, please feel free to stop by. ❚ Products Scheduled for Exhibition - Artificial Lipid Bilayer Experimental Device | Orbit mini You can easily measure channel activity at the single-molecule level. This device allows for the formation of lipid membranes, reconstitution of membrane proteins, and single-channel measurements in experiments using artificial lipid bilayers, all performed with just a micropipette, enabling functional and structural analysis of target membrane proteins and evaluation of drug effects. - Liposome Preparation Device | Vesicle Prep Pro This is the world's first device that can produce giant unilamellar vesicles (GUVs) with diameters ranging from 1 to 30 μm without organic solvents, using the electroporation method (vibrating hydrated lipid films in an alternating electric field). - Auto Patch Clamp System | Port-a-Patch mini This compact system eliminates the need for a microscope, vibration isolation table, manipulator, and Faraday cage, which are typically required for conventional patch clamp experiments. It allows for easy data acquisition and verification without the need for specialized skills or experience.
The operation has achieved improved usability with a touch display.
- Filtration Equipment
- Pure water production equipment
By standardizing automatic valves and interior components (strainers), we have achieved shorter delivery times and more affordable equipment.
- Filtration Equipment
- Pure water production equipment