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inkjet printer software sciflexarrayer (scienion a, version 2.09.002)  (SCIENION)

 
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    Structured Review

    SCIENION inkjet printer software sciflexarrayer (scienion a, version 2.09.002)
    Schematic representation of steps followed in manufacturing and analyzing <t>microarrays,</t> including drug and polymer solutions preparation, pipetting into well-plate, withdrawing drug solution through the printer nozzle and then dispensing at the required amount in the desired prelocated place on the substrate followed by repeating the same process for the polymer solution to print it onto the printed drug solution droplets.
    Inkjet Printer Software Sciflexarrayer (Scienion A, Version 2.09.002), supplied by SCIENION, 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/inkjet printer software sciflexarrayer (scienion a, version 2.09.002)/product/SCIENION
    Average 90 stars, based on 1 article reviews
    inkjet printer software sciflexarrayer (scienion a, version 2.09.002) - by Bioz Stars, 2026-03
    90/100 stars

    Images

    1) Product Images from "High-Throughput Microarray Approaches for Predicting the Stability of Drug–Polymer Solid Dispersions"

    Article Title: High-Throughput Microarray Approaches for Predicting the Stability of Drug–Polymer Solid Dispersions

    Journal: Molecular Pharmaceutics

    doi: 10.1021/acs.molpharmaceut.4c00955

    Schematic representation of steps followed in manufacturing and analyzing microarrays, including drug and polymer solutions preparation, pipetting into well-plate, withdrawing drug solution through the printer nozzle and then dispensing at the required amount in the desired prelocated place on the substrate followed by repeating the same process for the polymer solution to print it onto the printed drug solution droplets.
    Figure Legend Snippet: Schematic representation of steps followed in manufacturing and analyzing microarrays, including drug and polymer solutions preparation, pipetting into well-plate, withdrawing drug solution through the printer nozzle and then dispensing at the required amount in the desired prelocated place on the substrate followed by repeating the same process for the polymer solution to print it onto the printed drug solution droplets.

    Techniques Used: Polymer

    Examples of different APIs/PVPVA printed dispersions. All images are reported without a cross-polarized filter (top part of each section) and with a cross-polarized filter (bottom part). The images were arranged in ascending order according to the displayed drug–polymer ratio. The top section shows the API/polymer loading ratios with no birefringence (no crystallization monitored). In contrast, the middle section shows the API/polymer loading ratios that show the start of birefringence detection (start of crystallization), and the bottom section shows the API/polymer loading ratios that show apparent birefringence detection (crystallization). Three different ratios for API/polymer loading were displayed to compare the assessment of crystallization by POM. All images are reported after storage of the microarrays in accelerated conditions for 6 months (75% relative humidity and 40 °C in stability oven). Final mass: 1000–1100 ng.
    Figure Legend Snippet: Examples of different APIs/PVPVA printed dispersions. All images are reported without a cross-polarized filter (top part of each section) and with a cross-polarized filter (bottom part). The images were arranged in ascending order according to the displayed drug–polymer ratio. The top section shows the API/polymer loading ratios with no birefringence (no crystallization monitored). In contrast, the middle section shows the API/polymer loading ratios that show the start of birefringence detection (start of crystallization), and the bottom section shows the API/polymer loading ratios that show apparent birefringence detection (crystallization). Three different ratios for API/polymer loading were displayed to compare the assessment of crystallization by POM. All images are reported after storage of the microarrays in accelerated conditions for 6 months (75% relative humidity and 40 °C in stability oven). Final mass: 1000–1100 ng.

    Techniques Used: Polymer, Crystallization Assay



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    inkjet printer software sciflexarrayer (scienion a, version 2.09.002)  (SCIENION)
    90
    SCIENION inkjet printer software sciflexarrayer (scienion a, version 2.09.002)
    Schematic representation of steps followed in manufacturing and analyzing <t>microarrays,</t> including drug and polymer solutions preparation, pipetting into well-plate, withdrawing drug solution through the printer nozzle and then dispensing at the required amount in the desired prelocated place on the substrate followed by repeating the same process for the polymer solution to print it onto the printed drug solution droplets.
    Inkjet Printer Software Sciflexarrayer (Scienion A, Version 2.09.002), supplied by SCIENION, 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/inkjet printer software sciflexarrayer (scienion a, version 2.09.002)/product/SCIENION
    Average 90 stars, based on 1 article reviews
    inkjet printer software sciflexarrayer (scienion a, version 2.09.002) - by Bioz Stars, 2026-03
    90/100 stars
    		  Buy from Supplier
    software sciflexarrayer  (SCIENION)
    90
    SCIENION software sciflexarrayer
    Schematic representation of steps followed in manufacturing and analyzing <t>microarrays,</t> including drug and polymer solutions preparation, pipetting into well-plate, withdrawing drug solution through the printer nozzle and then dispensing at the required amount in the desired prelocated place on the substrate followed by repeating the same process for the polymer solution to print it onto the printed drug solution droplets.
    Software Sciflexarrayer, supplied by SCIENION, 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/software sciflexarrayer/product/SCIENION
    Average 90 stars, based on 1 article reviews
    software sciflexarrayer - by Bioz Stars, 2026-03
    90/100 stars
    		  Buy from Supplier
    sciflexarrayer software  (SCIENION)
    90
    SCIENION sciflexarrayer software
    Schematic representation of steps followed in manufacturing and analyzing <t>microarrays,</t> including drug and polymer solutions preparation, pipetting into well-plate, withdrawing drug solution through the printer nozzle and then dispensing at the required amount in the desired prelocated place on the substrate followed by repeating the same process for the polymer solution to print it onto the printed drug solution droplets.
    Sciflexarrayer Software, supplied by SCIENION, 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/sciflexarrayer software/product/SCIENION
    Average 90 stars, based on 1 article reviews
    sciflexarrayer software - by Bioz Stars, 2026-03
    90/100 stars
    		  Buy from Supplier

    Image Search Results


    Schematic representation of steps followed in manufacturing and analyzing microarrays, including drug and polymer solutions preparation, pipetting into well-plate, withdrawing drug solution through the printer nozzle and then dispensing at the required amount in the desired prelocated place on the substrate followed by repeating the same process for the polymer solution to print it onto the printed drug solution droplets.

    Journal: Molecular Pharmaceutics

    Article Title: High-Throughput Microarray Approaches for Predicting the Stability of Drug–Polymer Solid Dispersions

    doi: 10.1021/acs.molpharmaceut.4c00955

    Figure Lengend Snippet: Schematic representation of steps followed in manufacturing and analyzing microarrays, including drug and polymer solutions preparation, pipetting into well-plate, withdrawing drug solution through the printer nozzle and then dispensing at the required amount in the desired prelocated place on the substrate followed by repeating the same process for the polymer solution to print it onto the printed drug solution droplets.

    Article Snippet: A miniaturized, high-throughput technique was used to print microarrays of the drug–polymer mixtures using a piezoelectric inkjet printer Sciflexarrayer S5, Scienion (inkjet printer software sciflexarrayer (Scienion A, version 2.09.002)), and 70 μm orifice nozzle type 2 coating (Scienion, Germany).

    Techniques: Polymer

    Examples of different APIs/PVPVA printed dispersions. All images are reported without a cross-polarized filter (top part of each section) and with a cross-polarized filter (bottom part). The images were arranged in ascending order according to the displayed drug–polymer ratio. The top section shows the API/polymer loading ratios with no birefringence (no crystallization monitored). In contrast, the middle section shows the API/polymer loading ratios that show the start of birefringence detection (start of crystallization), and the bottom section shows the API/polymer loading ratios that show apparent birefringence detection (crystallization). Three different ratios for API/polymer loading were displayed to compare the assessment of crystallization by POM. All images are reported after storage of the microarrays in accelerated conditions for 6 months (75% relative humidity and 40 °C in stability oven). Final mass: 1000–1100 ng.

    Journal: Molecular Pharmaceutics

    Article Title: High-Throughput Microarray Approaches for Predicting the Stability of Drug–Polymer Solid Dispersions

    doi: 10.1021/acs.molpharmaceut.4c00955

    Figure Lengend Snippet: Examples of different APIs/PVPVA printed dispersions. All images are reported without a cross-polarized filter (top part of each section) and with a cross-polarized filter (bottom part). The images were arranged in ascending order according to the displayed drug–polymer ratio. The top section shows the API/polymer loading ratios with no birefringence (no crystallization monitored). In contrast, the middle section shows the API/polymer loading ratios that show the start of birefringence detection (start of crystallization), and the bottom section shows the API/polymer loading ratios that show apparent birefringence detection (crystallization). Three different ratios for API/polymer loading were displayed to compare the assessment of crystallization by POM. All images are reported after storage of the microarrays in accelerated conditions for 6 months (75% relative humidity and 40 °C in stability oven). Final mass: 1000–1100 ng.

    Article Snippet: A miniaturized, high-throughput technique was used to print microarrays of the drug–polymer mixtures using a piezoelectric inkjet printer Sciflexarrayer S5, Scienion (inkjet printer software sciflexarrayer (Scienion A, version 2.09.002)), and 70 μm orifice nozzle type 2 coating (Scienion, Germany).

    Techniques: Polymer, Crystallization Assay