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Citations for Microchem :
201 - 235 of 235 citations for 6 AMINO 4H 7H 1 3 DITHIINO 5 4 D PYRIMIDIN 8 ONE since 2019
Citations are collected from bioRxiv only, the total number of publications could be much larger.
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bioRxiv - Systems Biology 2020Quote: ... the silicon wafer was baked for 10 min at 200°C and spin coated at 4000 rpm using SU-8 2000.5 (MicroChem) to generate 0.5 μm height ...
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bioRxiv - Immunology 2021Quote: ... a master negative mold was prepared by spin-coating a silicon wafer with negative photoresist (SU-8, Microchem, MA) to a thickness of 100 μm ...
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bioRxiv - Cell Biology 2022Quote: ... a post-exposure baking identical to the soft bake was performed before development with SU-8 developer (Microchem, USA). Then ...
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bioRxiv - Microbiology 2023Quote: ... Molds were made on 100 mm silicon wafers (University Wafer) and spin coated with SU-8 3050 photoresist (MicroChem). Polydimethylsiloxane (PDMS ...
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bioRxiv - Genomics 2023Quote: ... The wafer was baked at 95 °C for 7 min and then rinsed with SU-8 developer (MicroChem, Y0201004000L1PE). The wafer was finally washed with isopropanol ...
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bioRxiv - Systems Biology 2019Quote: ... master mold for the Dropseq device design (CAD file available as a download from: http://mccarrolllab.org/dropseq/) was fabricated from a SU-8 photoresist (MicroChem, USA), and spin-coated on a 3” silicon wafer to generate 125 μm-thick uniform layers ...
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bioRxiv - Bioengineering 2021Quote: ... stamps for 250u and 500u diameter circles were prepared by polymerization upon a patterned master of photoresist (SU-8, MicroChem) created using UV photolithography using a laser printed mask ...
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bioRxiv - Cancer Biology 2021Quote: ... The conventional soft-lithography process was used to replicate the microchannel-patterned PDMS with SU-8 photoresist pattern master as a master mold (MicroChem). The PDMS elastomer ...
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bioRxiv - Synthetic Biology 2020Quote: ... using reactive ion etching to define 3.1 µm deep chambers arrayed along a 100 µm wide by 22 µm deep channel defined by SU-8 photoresist (MicroChem). After treating with a silane release layer ...
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bioRxiv - Bioengineering 2021Quote: ... The master molds were fabricated using SU-8 3050 photoresist spun to 124 – 136 μm thickness (Microchem, Westborough MA, USA) on 3” silicon wafers (University Wafer ...
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bioRxiv - Bioengineering 2019Quote: ... master mold wafers for casting the control and flow layers of the PDMS devices were prepared by multilayer photolithography using AZ50 XT (Capitol Scientific) and SU-8 (Microchem) photoresists according to the manufacturer’s specification ...
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bioRxiv - Cell Biology 2022Quote: ... A master mold was made by standard soft photolithography processes by spin-coating a 25μm layer of SU-8 2025 (Microchem, USA) photoresist at 2700 rpm for 30sec on a 3” wafer (Neyco ...
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bioRxiv - Systems Biology 2019Quote: ... The master mold was made with a 3” silicon wafer with a two-level micro-relief (0.8 μm and 15 μm) of a UV-curable epoxy (SU-8 by MicroChem, Newton, MA). The first level was made with SU-8 2002 spun onto the silicon wafer at an initial 500 rpm for 10 seconds with an acceleration index of 1 ...
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bioRxiv - Synthetic Biology 2023Quote: ... was spin-coated onto silicon wafers and patterned by UV exposure through a photolithography mask and subsequent development (SU-8 developer; MicroChem Corp.). From the photoresist masters ...
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bioRxiv - Cell Biology 2024Quote: A 4-inch silicon wafer (UniversityWafer, Inc., US) was first coated with an 80 µm-thick layer of photoresist (SU-8 2025, MicroChem, US) using a spin coater (spinNXG-P1 ...
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bioRxiv - Biophysics 2019Quote: ... A master mold of the structures of the microfluidic chip was produced by spin coating a thin layer of SU-8 2025 (MicroChem, Newton, MA) on a 4-inch silicon wafer (University Wafer ...
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bioRxiv - Bioengineering 2021Quote: ... by UV (365nm with 11.1mW/cm2) exposure (UV-KUB 2, KLOE, France) of a 75 μm thick layer of SU-8 2075 photoresist (MicroChem Corporation, USA) for 20s ...
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bioRxiv - Cell Biology 2021Quote: ... The master wafer was prepared by sequentially spin-coating the wafer with two layers of SU-8 negative photoresist (Microchem, Newton, MA) and patterning by exposure to UV light through the two chrome masks ...
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bioRxiv - Bioengineering 2019Quote: ... 70-μm) with micro-wells in it was fabricated on a silicon wafer using a negative photoresist (SU-8 3050, MicroChem, MA, USA), through the techniques of photolithography ...
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bioRxiv - Biophysics 2023Quote: ... A positive master mould containing microstructures of twelve-cornered stars of different widths (1000 and 2000µm) and corner angles (30°, 60°, 90° and 120°) were fabricated via photolithography using SU-8 2050 (MicroChem, Newton, MA, USA). The height of all the star structures was 100µm ...
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bioRxiv - Cell Biology 2023Quote: ... Silicon wafers were preheated at 180 °C for 30 min and overlayed with a 45 μm thick layer of SU-8-25 photoresist (Microchem, Newton, MA)by spin coating at 1300 rpm ...
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bioRxiv - Plant Biology 2023Quote: ... A silicon wafer was used to fabricate 20-µm-thick negative masters with an ultrathick SU-8 3010 photoresist (Y301186, MicroChem, Westborough, USA) for PDMS micro-flow channels molding ...
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bioRxiv - Genomics 2020Quote: ... Photomasks designed by AutoCAD were printed on transparencies and the features on the photomask transferred to a silicon wafer (University Wafer) using negative photoresist (MicroChem, SU-8 2025) by UV photolithography ...
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bioRxiv - Molecular Biology 2019Quote: ... one for the aqueous sample) flow-focusing microfluidic mold was prepared with standard soft lithography techniques using SU-8 photoresist (MicroChem Corp., MA, USA) patterned on a 4-inch silicon wafer ...
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bioRxiv - Biophysics 2023Quote: A Piranha cleaned 4” Silicon wafer was spin coated with SU-2035 (Microchem) negative photoresist at 3000 rpm for 35 seconds to obtain a thickness of 75µm ...
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bioRxiv - Cell Biology 2023Quote: ... and placed in a clean room on top of 76.2 mm silicon wafers (University Wafer, 447) to produce by photolithography 60 µm depth molds using SU-8 2050 photoresist (Microchem, now Kayaku Advanced Materials, Inc.). A 10:1 mixture of Sylgard 184 elastomer Polydimethylsiloxane (PDMS ...
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bioRxiv - Cell Biology 2023Quote: ... Silicon wafers were coated with a first 5-μm layer of resin (SU8-3005; MicroChem; CTS) exposed to UV light at 23 mJ/cm2 (UV KUB2 ...
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bioRxiv - Biophysics 2021Quote: ... followed by Pt/Ti (20 nm/5 nm) deposition with e-beam (Angstrom Engineering) and lift off using remover PG (MicroChem). To remove photoresist residues and improve the adhesion of electrodes ...
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bioRxiv - Microbiology 2020Quote: ... and laser mask writer (Heidelberg Instruments) followed by Au/Cr (45 nm/5 nm) deposition and lift off using remover PG (MicroChem). After that the graphene patterning was done with lithography using same bilayer resist and oxygen plasma etching ...
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bioRxiv - Neuroscience 2020Quote: ... and 2 µm S1818 (Microchem, 5000 rpm, baking at 100°C for 1 min). Patterns were developed for 40 – 50 s in MF319 (Microchem) ...
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bioRxiv - Neuroscience 2021Quote: ... and 1 min at 65 °C) before developing the wafer in SU8 developer (MicroChem, USA). The wafer was finally rinsed with isopropanol ...
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bioRxiv - Neuroscience 2022Quote: ... cleaned wafers were spin-coated with 1 ml/inch SU8-50 (MicroChem, Newton Massachusetts, USA) to obtain a 30-micron height (500 RPM (100 RPM/s acceleration for 15 seconds) ...
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bioRxiv - Neuroscience 2021Quote: ... and 1 min at 65 °C) before developing the wafer in SU8 developer (MicroChem, USA). The wafer was finally rinsed with isopropanol ...
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bioRxiv - Bioengineering 2020Quote: ... on top of which a trace layer was shaped using S-1818 (MicroChem, 115 °C, 1 min). Prior to sputtering deposition ...
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bioRxiv - Bioengineering 2022Quote: The procedures to fabricate the NOMA microchip are as follows: 1) Fabrication of the hard molds for microwells by patterning SU8-3035 (Microchem) on silicon wafers with photolithography ...