pressure driven flow controller Search Results


pressure controller  (Elveflow Inc)
96
Elveflow Inc pressure controller
Pressure Controller, supplied by Elveflow Inc, used in various techniques. Bioz Stars score: 96/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/pressure controller/product/Elveflow Inc
Average 96 stars, based on 1 article reviews
pressure controller - by Bioz Stars, 2026-04
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pressure-based flow control system flow ez  (FLUIGENT Inc)
90
FLUIGENT Inc pressure-based flow control system flow ez
Pressure Based Flow Control System Flow Ez, supplied by FLUIGENT Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/pressure-based flow control system flow ez/product/FLUIGENT Inc
Average 90 stars, based on 1 article reviews
pressure-based flow control system flow ez - by Bioz Stars, 2026-04
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pressure-driven flow controller  (FLUIGENT Inc)
90
FLUIGENT Inc pressure-driven flow controller
Pressure Driven Flow Controller, supplied by FLUIGENT Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/pressure-driven flow controller/product/FLUIGENT Inc
Average 90 stars, based on 1 article reviews
pressure-driven flow controller - by Bioz Stars, 2026-04
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pressure-based flow controller  (FLUIGENT Inc)
90
FLUIGENT Inc pressure-based flow controller
Pressure Based Flow Controller, supplied by FLUIGENT Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/pressure-based flow controller/product/FLUIGENT Inc
Average 90 stars, based on 1 article reviews
pressure-based flow controller - by Bioz Stars, 2026-04
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pneumatic pressure controllers 345 mbar lineup ez-flow  (FLUIGENT Inc)
90
FLUIGENT Inc pneumatic pressure controllers 345 mbar lineup ez-flow
Design of the microfluidic system (a) the round microfluidic devices contain 3 microfluidic channels: (i) microfluidic channels are 1.1 cm long and 500 × 500 μm (wxh); (ii) VFP consists of injection of a viscous collagen mixture (pink) into the channel followed by a droplet of PBS; (iii) pipette-tips are removed and cells can be seeded. (b) Expanded view of the fluidic circuit board, which consists of a fluidic circuit top-layer, a connection layer housing the luer-to-1/16′ barb connectors to four individual devices. (c) The fluidic circuit contains two medium reservoirs (R1,R2) connected to pressure <t>controllers</t> (not shown), a feeder channel (green), τ EQ-resistors (yellow) and a waste channel (red) check valves are located at the medium reservoirs so recirculation can be achieved by switching high- and low pressure between the reservoirs. (d) 2p-SHG image shows the collagen fibrillar structure that reveals the lumen. (e) 3D reconstruction of TUBA1B-eGFP-ECs used for this study. (f) Photograph of the tested fluidic circuit board, connected to the external medium reservoirs in a heat block. Scalebar 100 μm.
Pneumatic Pressure Controllers 345 Mbar Lineup Ez Flow, supplied by FLUIGENT Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/pneumatic pressure controllers 345 mbar lineup ez-flow/product/FLUIGENT Inc
Average 90 stars, based on 1 article reviews
pneumatic pressure controllers 345 mbar lineup ez-flow - by Bioz Stars, 2026-04
90/100 stars
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pressure control system flowez  (FLUIGENT Inc)
90
FLUIGENT Inc pressure control system flowez
Design of the microfluidic system (a) the round microfluidic devices contain 3 microfluidic channels: (i) microfluidic channels are 1.1 cm long and 500 × 500 μm (wxh); (ii) VFP consists of injection of a viscous collagen mixture (pink) into the channel followed by a droplet of PBS; (iii) pipette-tips are removed and cells can be seeded. (b) Expanded view of the fluidic circuit board, which consists of a fluidic circuit top-layer, a connection layer housing the luer-to-1/16′ barb connectors to four individual devices. (c) The fluidic circuit contains two medium reservoirs (R1,R2) connected to pressure <t>controllers</t> (not shown), a feeder channel (green), τ EQ-resistors (yellow) and a waste channel (red) check valves are located at the medium reservoirs so recirculation can be achieved by switching high- and low pressure between the reservoirs. (d) 2p-SHG image shows the collagen fibrillar structure that reveals the lumen. (e) 3D reconstruction of TUBA1B-eGFP-ECs used for this study. (f) Photograph of the tested fluidic circuit board, connected to the external medium reservoirs in a heat block. Scalebar 100 μm.
Pressure Control System Flowez, supplied by FLUIGENT Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/pressure control system flowez/product/FLUIGENT Inc
Average 90 stars, based on 1 article reviews
pressure control system flowez - by Bioz Stars, 2026-04
90/100 stars
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microfluidic pressure flow controller  (Precigenome LLC)
90
Precigenome LLC microfluidic pressure flow controller
Design of the microfluidic system (a) the round microfluidic devices contain 3 microfluidic channels: (i) microfluidic channels are 1.1 cm long and 500 × 500 μm (wxh); (ii) VFP consists of injection of a viscous collagen mixture (pink) into the channel followed by a droplet of PBS; (iii) pipette-tips are removed and cells can be seeded. (b) Expanded view of the fluidic circuit board, which consists of a fluidic circuit top-layer, a connection layer housing the luer-to-1/16′ barb connectors to four individual devices. (c) The fluidic circuit contains two medium reservoirs (R1,R2) connected to pressure <t>controllers</t> (not shown), a feeder channel (green), τ EQ-resistors (yellow) and a waste channel (red) check valves are located at the medium reservoirs so recirculation can be achieved by switching high- and low pressure between the reservoirs. (d) 2p-SHG image shows the collagen fibrillar structure that reveals the lumen. (e) 3D reconstruction of TUBA1B-eGFP-ECs used for this study. (f) Photograph of the tested fluidic circuit board, connected to the external medium reservoirs in a heat block. Scalebar 100 μm.
Microfluidic Pressure Flow Controller, supplied by Precigenome LLC, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/microfluidic pressure flow controller/product/Precigenome LLC
Average 90 stars, based on 1 article reviews
microfluidic pressure flow controller - by Bioz Stars, 2026-04
90/100 stars
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automated temperature, pressure and mass flow controllers  (Alicat Scientific)
90
Alicat Scientific automated temperature, pressure and mass flow controllers
Design of the microfluidic system (a) the round microfluidic devices contain 3 microfluidic channels: (i) microfluidic channels are 1.1 cm long and 500 × 500 μm (wxh); (ii) VFP consists of injection of a viscous collagen mixture (pink) into the channel followed by a droplet of PBS; (iii) pipette-tips are removed and cells can be seeded. (b) Expanded view of the fluidic circuit board, which consists of a fluidic circuit top-layer, a connection layer housing the luer-to-1/16′ barb connectors to four individual devices. (c) The fluidic circuit contains two medium reservoirs (R1,R2) connected to pressure <t>controllers</t> (not shown), a feeder channel (green), τ EQ-resistors (yellow) and a waste channel (red) check valves are located at the medium reservoirs so recirculation can be achieved by switching high- and low pressure between the reservoirs. (d) 2p-SHG image shows the collagen fibrillar structure that reveals the lumen. (e) 3D reconstruction of TUBA1B-eGFP-ECs used for this study. (f) Photograph of the tested fluidic circuit board, connected to the external medium reservoirs in a heat block. Scalebar 100 μm.
Automated Temperature, Pressure And Mass Flow Controllers, supplied by Alicat Scientific, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/automated temperature, pressure and mass flow controllers/product/Alicat Scientific
Average 90 stars, based on 1 article reviews
automated temperature, pressure and mass flow controllers - by Bioz Stars, 2026-04
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high precision pressure pump fluigent mfcs-ez-4c  (FLUIGENT Inc)
90
FLUIGENT Inc high precision pressure pump fluigent mfcs-ez-4c
Design of the microfluidic system (a) the round microfluidic devices contain 3 microfluidic channels: (i) microfluidic channels are 1.1 cm long and 500 × 500 μm (wxh); (ii) VFP consists of injection of a viscous collagen mixture (pink) into the channel followed by a droplet of PBS; (iii) pipette-tips are removed and cells can be seeded. (b) Expanded view of the fluidic circuit board, which consists of a fluidic circuit top-layer, a connection layer housing the luer-to-1/16′ barb connectors to four individual devices. (c) The fluidic circuit contains two medium reservoirs (R1,R2) connected to pressure <t>controllers</t> (not shown), a feeder channel (green), τ EQ-resistors (yellow) and a waste channel (red) check valves are located at the medium reservoirs so recirculation can be achieved by switching high- and low pressure between the reservoirs. (d) 2p-SHG image shows the collagen fibrillar structure that reveals the lumen. (e) 3D reconstruction of TUBA1B-eGFP-ECs used for this study. (f) Photograph of the tested fluidic circuit board, connected to the external medium reservoirs in a heat block. Scalebar 100 μm.
High Precision Pressure Pump Fluigent Mfcs Ez 4c, supplied by FLUIGENT Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/high precision pressure pump fluigent mfcs-ez-4c/product/FLUIGENT Inc
Average 90 stars, based on 1 article reviews
high precision pressure pump fluigent mfcs-ez-4c - by Bioz Stars, 2026-04
90/100 stars
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microfluidic pressure controller 25 mbar flow-ez  (FLUIGENT Inc)
90
FLUIGENT Inc microfluidic pressure controller 25 mbar flow-ez
Design of the microfluidic system (a) the round microfluidic devices contain 3 microfluidic channels: (i) microfluidic channels are 1.1 cm long and 500 × 500 μm (wxh); (ii) VFP consists of injection of a viscous collagen mixture (pink) into the channel followed by a droplet of PBS; (iii) pipette-tips are removed and cells can be seeded. (b) Expanded view of the fluidic circuit board, which consists of a fluidic circuit top-layer, a connection layer housing the luer-to-1/16′ barb connectors to four individual devices. (c) The fluidic circuit contains two medium reservoirs (R1,R2) connected to pressure <t>controllers</t> (not shown), a feeder channel (green), τ EQ-resistors (yellow) and a waste channel (red) check valves are located at the medium reservoirs so recirculation can be achieved by switching high- and low pressure between the reservoirs. (d) 2p-SHG image shows the collagen fibrillar structure that reveals the lumen. (e) 3D reconstruction of TUBA1B-eGFP-ECs used for this study. (f) Photograph of the tested fluidic circuit board, connected to the external medium reservoirs in a heat block. Scalebar 100 μm.
Microfluidic Pressure Controller 25 Mbar Flow Ez, supplied by FLUIGENT Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/microfluidic pressure controller 25 mbar flow-ez/product/FLUIGENT Inc
Average 90 stars, based on 1 article reviews
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90/100 stars
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mass flow controlled atmospheric pressure cvd furnace  (Sevenstar Electronics)
90
Sevenstar Electronics mass flow controlled atmospheric pressure cvd furnace
Design of the microfluidic system (a) the round microfluidic devices contain 3 microfluidic channels: (i) microfluidic channels are 1.1 cm long and 500 × 500 μm (wxh); (ii) VFP consists of injection of a viscous collagen mixture (pink) into the channel followed by a droplet of PBS; (iii) pipette-tips are removed and cells can be seeded. (b) Expanded view of the fluidic circuit board, which consists of a fluidic circuit top-layer, a connection layer housing the luer-to-1/16′ barb connectors to four individual devices. (c) The fluidic circuit contains two medium reservoirs (R1,R2) connected to pressure <t>controllers</t> (not shown), a feeder channel (green), τ EQ-resistors (yellow) and a waste channel (red) check valves are located at the medium reservoirs so recirculation can be achieved by switching high- and low pressure between the reservoirs. (d) 2p-SHG image shows the collagen fibrillar structure that reveals the lumen. (e) 3D reconstruction of TUBA1B-eGFP-ECs used for this study. (f) Photograph of the tested fluidic circuit board, connected to the external medium reservoirs in a heat block. Scalebar 100 μm.
Mass Flow Controlled Atmospheric Pressure Cvd Furnace, supplied by Sevenstar Electronics, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/mass flow controlled atmospheric pressure cvd furnace/product/Sevenstar Electronics
Average 90 stars, based on 1 article reviews
mass flow controlled atmospheric pressure cvd furnace - by Bioz Stars, 2026-04
90/100 stars
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low pressure drop mass flow controller no. gf120xsd  (Brooks Automation)
90
Brooks Automation low pressure drop mass flow controller no. gf120xsd
Design of the microfluidic system (a) the round microfluidic devices contain 3 microfluidic channels: (i) microfluidic channels are 1.1 cm long and 500 × 500 μm (wxh); (ii) VFP consists of injection of a viscous collagen mixture (pink) into the channel followed by a droplet of PBS; (iii) pipette-tips are removed and cells can be seeded. (b) Expanded view of the fluidic circuit board, which consists of a fluidic circuit top-layer, a connection layer housing the luer-to-1/16′ barb connectors to four individual devices. (c) The fluidic circuit contains two medium reservoirs (R1,R2) connected to pressure <t>controllers</t> (not shown), a feeder channel (green), τ EQ-resistors (yellow) and a waste channel (red) check valves are located at the medium reservoirs so recirculation can be achieved by switching high- and low pressure between the reservoirs. (d) 2p-SHG image shows the collagen fibrillar structure that reveals the lumen. (e) 3D reconstruction of TUBA1B-eGFP-ECs used for this study. (f) Photograph of the tested fluidic circuit board, connected to the external medium reservoirs in a heat block. Scalebar 100 μm.
Low Pressure Drop Mass Flow Controller No. Gf120xsd, supplied by Brooks Automation, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/low pressure drop mass flow controller no. gf120xsd/product/Brooks Automation
Average 90 stars, based on 1 article reviews
low pressure drop mass flow controller no. gf120xsd - by Bioz Stars, 2026-04
90/100 stars
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Image Search Results


Design of the microfluidic system (a) the round microfluidic devices contain 3 microfluidic channels: (i) microfluidic channels are 1.1 cm long and 500 × 500 μm (wxh); (ii) VFP consists of injection of a viscous collagen mixture (pink) into the channel followed by a droplet of PBS; (iii) pipette-tips are removed and cells can be seeded. (b) Expanded view of the fluidic circuit board, which consists of a fluidic circuit top-layer, a connection layer housing the luer-to-1/16′ barb connectors to four individual devices. (c) The fluidic circuit contains two medium reservoirs (R1,R2) connected to pressure controllers (not shown), a feeder channel (green), τ EQ-resistors (yellow) and a waste channel (red) check valves are located at the medium reservoirs so recirculation can be achieved by switching high- and low pressure between the reservoirs. (d) 2p-SHG image shows the collagen fibrillar structure that reveals the lumen. (e) 3D reconstruction of TUBA1B-eGFP-ECs used for this study. (f) Photograph of the tested fluidic circuit board, connected to the external medium reservoirs in a heat block. Scalebar 100 μm.

Journal: Lab on a Chip

Article Title: Multiplexed fluidic circuit board for controlled perfusion of 3D blood vessels-on-a-chip

doi: 10.1039/d2lc00686c

Figure Lengend Snippet: Design of the microfluidic system (a) the round microfluidic devices contain 3 microfluidic channels: (i) microfluidic channels are 1.1 cm long and 500 × 500 μm (wxh); (ii) VFP consists of injection of a viscous collagen mixture (pink) into the channel followed by a droplet of PBS; (iii) pipette-tips are removed and cells can be seeded. (b) Expanded view of the fluidic circuit board, which consists of a fluidic circuit top-layer, a connection layer housing the luer-to-1/16′ barb connectors to four individual devices. (c) The fluidic circuit contains two medium reservoirs (R1,R2) connected to pressure controllers (not shown), a feeder channel (green), τ EQ-resistors (yellow) and a waste channel (red) check valves are located at the medium reservoirs so recirculation can be achieved by switching high- and low pressure between the reservoirs. (d) 2p-SHG image shows the collagen fibrillar structure that reveals the lumen. (e) 3D reconstruction of TUBA1B-eGFP-ECs used for this study. (f) Photograph of the tested fluidic circuit board, connected to the external medium reservoirs in a heat block. Scalebar 100 μm.

Article Snippet: A custom python-based PID-controller was developed to control two 345 mbar LineUp EZ-flow (Fluigent) pneumatic pressure controllers.

Techniques: Injection, Transferring, Blocking Assay