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precision elveflow pressure sensor  (Elveflow Inc)


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    Elveflow Inc precision elveflow pressure sensor
    Precision Elveflow Pressure Sensor, supplied by Elveflow Inc, used in various techniques. Bioz Stars score: 93/100, based on 34 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/product/elveflow+sensors/10__3390_slash_colloids9060086-243-10-11?v=Elveflow+Inc
    Average 93 stars, based on 34 article reviews
    precision elveflow pressure sensor - by Bioz Stars, 2026-06
    93/100 stars

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    The variation of implant surface morphology affected the cell movement velocity (CMV). ( a ) Design of the tissue-on-chip (TOC). ( b ) The instrument connections of the <t>microfluidic</t> pressure and flow control system. ( c ) 3D reconstruction of the TOC; the velocity contour of the TOC-T and TOC-C, generated using Fluent 19.0. The red arrows indicate that CMV increases when the fluid passes through the smaller cross-sectional area of the bone cavity. ( d ) Live images and velocity vector diagrams of MG-63 cells traversing the TOC-T and TOC-C. ( e ) The CMV of group T was significantly lower than that of group C ( P < 0.05); there was no significant difference in the CMA of groups T and C ( P > 0.05). ( f ) The values of Sv, contact angle, and zeta potential of groups T and C; Factors contributing to high CMV: Sa and Ssk negatively influenced the high CMV of MG-63, accounting for − 32% and − 51%, respectively ( P < 0.05). Sv , contact angle, and zeta potential did not affect CMV ( P > 0.05); the hydrogen content was an indirectly positive factor for high CMV ( P < 0.05). The statistical significance was set at P < 0.05. This figure was generated by Adobe photoshop CC 2015.
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    Fig. 2. Cetoni pump system measurement setup at RISE. In the configuration shown, the pressure drop over a channel of the microfluidic chip is measured.

    Journal: Measurement: Sensors

    Article Title: Investigations on the performance of a newly developed pressure-driven flow controller used in microfluidic applications

    doi: 10.1016/j.measen.2024.101645

    Figure Lengend Snippet: Fig. 2. Cetoni pump system measurement setup at RISE. In the configuration shown, the pressure drop over a channel of the microfluidic chip is measured.

    Article Snippet: The system provided by the Microfluidics Innovation Center (MIC) consists of the prototype pressure-driven flow controller and a commercially available Elveflow Microfluidic Flow Sensor (MFS).

    Techniques:

    Fig. 5. Microfluidic polymer chip with 8 different channels, chip dimensions 75.5 × 25.5 mm, mini-luer access holes.

    Journal: Measurement: Sensors

    Article Title: Investigations on the performance of a newly developed pressure-driven flow controller used in microfluidic applications

    doi: 10.1016/j.measen.2024.101645

    Figure Lengend Snippet: Fig. 5. Microfluidic polymer chip with 8 different channels, chip dimensions 75.5 × 25.5 mm, mini-luer access holes.

    Article Snippet: The system provided by the Microfluidics Innovation Center (MIC) consists of the prototype pressure-driven flow controller and a commercially available Elveflow Microfluidic Flow Sensor (MFS).

    Techniques: Polymer

    Fig. 8. Error difference in the small configuration of channel 5 with and without the microfluidic chip with the MIC system at IPQ.

    Journal: Measurement: Sensors

    Article Title: Investigations on the performance of a newly developed pressure-driven flow controller used in microfluidic applications

    doi: 10.1016/j.measen.2024.101645

    Figure Lengend Snippet: Fig. 8. Error difference in the small configuration of channel 5 with and without the microfluidic chip with the MIC system at IPQ.

    Article Snippet: The system provided by the Microfluidics Innovation Center (MIC) consists of the prototype pressure-driven flow controller and a commercially available Elveflow Microfluidic Flow Sensor (MFS).

    Techniques:

    Fig. 7. Error difference in the large configuration of channel 5 with and without the microfluidic chip with the MIC system at IPQ.

    Journal: Measurement: Sensors

    Article Title: Investigations on the performance of a newly developed pressure-driven flow controller used in microfluidic applications

    doi: 10.1016/j.measen.2024.101645

    Figure Lengend Snippet: Fig. 7. Error difference in the large configuration of channel 5 with and without the microfluidic chip with the MIC system at IPQ.

    Article Snippet: The system provided by the Microfluidics Innovation Center (MIC) consists of the prototype pressure-driven flow controller and a commercially available Elveflow Microfluidic Flow Sensor (MFS).

    Techniques:

    The variation of implant surface morphology affected the cell movement velocity (CMV). ( a ) Design of the tissue-on-chip (TOC). ( b ) The instrument connections of the microfluidic pressure and flow control system. ( c ) 3D reconstruction of the TOC; the velocity contour of the TOC-T and TOC-C, generated using Fluent 19.0. The red arrows indicate that CMV increases when the fluid passes through the smaller cross-sectional area of the bone cavity. ( d ) Live images and velocity vector diagrams of MG-63 cells traversing the TOC-T and TOC-C. ( e ) The CMV of group T was significantly lower than that of group C ( P < 0.05); there was no significant difference in the CMA of groups T and C ( P > 0.05). ( f ) The values of Sv, contact angle, and zeta potential of groups T and C; Factors contributing to high CMV: Sa and Ssk negatively influenced the high CMV of MG-63, accounting for − 32% and − 51%, respectively ( P < 0.05). Sv , contact angle, and zeta potential did not affect CMV ( P > 0.05); the hydrogen content was an indirectly positive factor for high CMV ( P < 0.05). The statistical significance was set at P < 0.05. This figure was generated by Adobe photoshop CC 2015.

    Journal: Scientific Reports

    Article Title: The role of titanium surface micromorphology in MG-63 cell motility during osteogenesis

    doi: 10.1038/s41598-022-13854-2

    Figure Lengend Snippet: The variation of implant surface morphology affected the cell movement velocity (CMV). ( a ) Design of the tissue-on-chip (TOC). ( b ) The instrument connections of the microfluidic pressure and flow control system. ( c ) 3D reconstruction of the TOC; the velocity contour of the TOC-T and TOC-C, generated using Fluent 19.0. The red arrows indicate that CMV increases when the fluid passes through the smaller cross-sectional area of the bone cavity. ( d ) Live images and velocity vector diagrams of MG-63 cells traversing the TOC-T and TOC-C. ( e ) The CMV of group T was significantly lower than that of group C ( P < 0.05); there was no significant difference in the CMA of groups T and C ( P > 0.05). ( f ) The values of Sv, contact angle, and zeta potential of groups T and C; Factors contributing to high CMV: Sa and Ssk negatively influenced the high CMV of MG-63, accounting for − 32% and − 51%, respectively ( P < 0.05). Sv , contact angle, and zeta potential did not affect CMV ( P > 0.05); the hydrogen content was an indirectly positive factor for high CMV ( P < 0.05). The statistical significance was set at P < 0.05. This figure was generated by Adobe photoshop CC 2015.

    Article Snippet: The ELVEFLOW microfluidic pressure and flow control system included a pressure controller (Fluidic Lab), a flow sensor (Fluidic Lab), and the software ELVEFLOW Smart Interface (ESI) chose the pressure channel: OB1 MK3 + (ELVEFLOW, France).

    Techniques: Control, Generated, Plasmid Preparation, Zeta Potential Analyzer