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Citations for Microchem :
151 - 200 of 230 citations for 8 8 dimethylpyrano 2 3 h chromen 2 one since 2019
Citations are collected from bioRxiv only, the total number of publications could be much larger.
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bioRxiv - Bioengineering 2019Quote: The SU-8 mold fabrication was performed by following the manufacturer’s instructions (MicroChem) and previous publications.(48 ...
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bioRxiv - Neuroscience 2021Quote: ... All master molds were fabricated with transparency photomasks and SU-8 2075 (MicroChem). The master mold for the bottom Hydra layer (circular chambers ...
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bioRxiv - Bioengineering 2022Quote: ... Development of the master mold was done by a SU-8 developer (MicroChem) for 10 min and completed by washing with isopropanol and cleaning with an air gun ...
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bioRxiv - Bioengineering 2022Quote: ... The master molds for the PDMS layers were made using SU-8 100 (Microchem) which were spin-coated onto wafers ...
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bioRxiv - Cell Biology 2022Quote: ... we performed two cycles of spin-coating negative photoresist (SU-8, Microchem, Newton, MA) and exposure to ultraviolet (UV ...
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bioRxiv - Bioengineering 2020Quote: ... and (5) developing away uncured photoresist using SU-8 developer (Microchem Corp, Newton, MA) according to standard manufacturer instructions ...
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bioRxiv - Cell Biology 2021Quote: ... master molds were made by spin-coating SU-8 2005 resin (MicroChem Corp., USA) on silicon wafers using a spincoater (Laurell Technologies ...
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bioRxiv - Biophysics 2023Quote: ... created using ultraviolet (UV) photoresist lithography with SU-8 negative resist (SU8 3010, Microchem). The resists were then cured using UV light exposure through photomasks designed in CAD software and printed by CAD/Art Services ...
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bioRxiv - Genomics 2023Quote: ... A layer (∼30 μm in thickness) of SU-8 2025 photoresist (MicroChem, Y111069 0500L1GL) was coated on a 3-inch silicon wafer (University Wafer ...
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bioRxiv - Bioengineering 2023Quote: ... Mold for layer #4 is fabricated using SU-8 2025 (MicroChem, Newton, MA, USA) spin-coated at 4000rpm for 30s to create ∼20μm tall channels (Figure S2b) ...
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bioRxiv - Genomics 2020Quote: ... The features on the photomask were transferred to a negative photoresist (MicroChem, SU-8 2025) on a silicon wafer (University Wafer ...
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bioRxiv - Bioengineering 2022Quote: ... After baking and developing with SU-8 developer (propylene glycol methyl ether acetate; MicroChem Corp.), the 10-μm tall positive master of the drop-maker and the 25-μm tall positive master of the sorter are formed on the silicon wafers ...
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bioRxiv - Bioengineering 2022Quote: ... After baking and development with SU-8 developer (propylene glycol methyl ether acetate; MicroChem Corp.), the 15 μm and 25 μm tall positive masters of the devices were formed on the silicon wafers ...
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bioRxiv - Bioengineering 2022Quote: ... After baking and development with SU-8 developer (propylene glycol methyl ether acetate; MicroChem Corp.), a 10-μm tall positive master of the device was formed on the silicon wafer ...
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bioRxiv - Biophysics 2019Quote: ... hexamethyldisilazane (HMDS) was used as a adhesion promoter (MicroChem Corp. SU-8 2000 Processing Guidelines). It was applied by placing dehydrated glass substrates in a desiccator connected to a diaphragm pump and containing a vial of HMDS (Product Number ...
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bioRxiv - Plant Biology 2021Quote: ... the silicon wafer was spin-coated with SU-8 3050 (MicroChem Corp., Newton, MA, USA) at 1750 rpm for 60 s and baked at 95°C for 30 min ...
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bioRxiv - Cell Biology 2019Quote: ... followed by a spin coating step using SU-8 2005 (3000 RPM, 30sec, Microchem, USA) and a prebake of 2 min at 95°C ...
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bioRxiv - Biophysics 2020Quote: ... the MVAS-Force consists of three layers fabricated through mold replication from SU-8 (Microchem) masters made with standard photolithographic methods on polished silicon wafers (Universitywafers.com) ...
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bioRxiv - Animal Behavior and Cognition 2023Quote: ... molds were made using negative UV photoresist (SU-8 2025, Kayaku Advanced Materials, [formerly Microchem]) spun coat onto silicon wafers (10 s at 500 rpm ...
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bioRxiv - Cancer Biology 2023Quote: ... After patterning the design on a silicon wafer using photolithography with SU-8 photoresist (MicroChem), PDMS (Sylgard 184 ...
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bioRxiv - Cell Biology 2019Quote: ... Control molds were fabricated on 4” silicon wafers by spin coating SU-8 2025/3025 (MicroChem) at 500 rpm for 5 sec followed by 3000 rpm for 70 sec yielding a substrate height of around 15-18 μm ...
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bioRxiv - Cancer Biology 2021Quote: ... The design was patterned on a silicon wafer by photolithography with SU-8 (2050) photoresist (MicroChem). PDMS devices were then fabricated by pouring PDMS (Sylgard 184 ...
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bioRxiv - Cell Biology 2023Quote: ... dried using a nitrogen gas and used immediately for SU-8 2000 (Kayaku Advanced Materials, MicroChem) spin coating ...
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bioRxiv - Bioengineering 2023Quote: ... Negative master molds were made with Nano SU-8-100 photoresist (Microchem, Round Rock, TX, USA) on 3 silicon wafers (University Wafer Inc. ...
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bioRxiv - Bioengineering 2023Quote: ... The PDMS casting mold was fabricated by photolithography patterning of 50 μm SU-8 resist (Microchem 3025 ...
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bioRxiv - Bioengineering 2019Quote: ... This photomask was subsequently used to pattern an SU-8-coated silicon wafer (Microchem Corporation, Westborough, USA) using conventional photolithography ...
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bioRxiv - Genomics 2021Quote: ... We followed the manufacturer’s guidelines to spin coat SU-8 negative photoresist (SU-2010, SU-2025, Microchem) on a silicon wafer (C04004 ...
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bioRxiv - Bioengineering 2020Quote: Standard soft lithography techniques67 were used to fabricate an SU-8 (Kayaku Advanced Materials, formerly Microchem Corp.) master mold for sets of four microfluidic funnels for worm confinement as described53 ...
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bioRxiv - Cell Biology 2021Quote: ... The master molds were made using standard soft-photolithography processes using SU-8 2025 photoresist (Microchem, USA). The designs were made on AutoCAD (available upon request ...
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bioRxiv - Microbiology 2022Quote: ... A silicon mold of HIC was fabricated using the negative photoresist SU–8 (MicroChem Corp., Westborough, MA) by photolithography (22) ...
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bioRxiv - Biophysics 2021Quote: Substrates for EBL were prepared directly after HMDS treatment by spin coating SU-8 2001 (Microchem Corp.) to a desired thickness of 500 nm and 1000 nm ...
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bioRxiv - Genomics 2019Quote: ... and then microfluidic channel features were patterned with a 100 µm layer of SU-8 3050 (Microchem). Each chip was then capped with cured PDMS with holes cored for all inlet and outlet ports ...
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bioRxiv - Bioengineering 2019Quote: ... This photomask was then utilized to pattern a SU-8 coated silicon wafer (Microchem Corporation, Westborough, USA). The final master structure consisted of an inverted straight rectangular microchannel (width ...
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bioRxiv - Neuroscience 2023Quote: ... Silicon-wafer masters were created by exposing a layer of SU-8 2025 resist (Microchem, Newton, MA) through a transparency mask and developing the master in a bath of glycol monomethyl ether acetate (PGMEA) ...
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bioRxiv - Bioengineering 2023Quote: ... the wafer underwent a post-exposure bake and was developed in a SU-8 developer solution (MicroChem). The baking durations and exposure dosage followed the manufacturer’s instructions ...
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bioRxiv - Animal Behavior and Cognition 2023Quote: ... first a positive mold was created by photolithography of a layer of photoresist (SU-8 2008, Microchem) on a 4 inch silicon wafer [50] ...
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bioRxiv - Bioengineering 2021Quote: ... a negative-relief master was lithographically fabricated onto a polished silicon substrate using SU-8 epoxy photoresist (MicroChem) (SU-8 3025 for MCF-10A devices ...
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bioRxiv - Microbiology 2020Quote: ... The mixture was casted onto a silicon wafer having different patterns of SU-8 2100 (MicroChem, MA, USA) and AZ-50 (AZ Electronic Materials ...
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bioRxiv - Genetics 2021Quote: ... we spin-coated SU8-2 (MicroChem) on the wafer with the target height of 1.2 µm ...
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bioRxiv - Bioengineering 2023Quote: ... (2) LOR 3A and S1805 (Microchem) were spin-coated at 4,000 rpm for 45 s and baked at 180 °C for 4 min and at 115 °C for 1 min ...
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bioRxiv - Bioengineering 2023Quote: ... (2) LOR 3A and S1805 (Microchem) were spin-coated at 4,000 rpm for 45 s and baked at 180 °C for 4 min and at 115 °C for 1 min ...
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bioRxiv - Systems Biology 2019Quote: Photoresist masters of 25 µm layer height were fabricated by spinning a layer of photoresist SU-8 3025 (Microchem) onto a silicon wafer (University Wafer) ...
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bioRxiv - Cell Biology 2021Quote: ... a post-exposure bake identical to the soft bake was performed before development using SU-8 developer (Microchem, USA).
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bioRxiv - Biophysics 2020Quote: ... devices for droplet generation and multilayer well-devices for droplet collection and imaging were produced on SU-8 (Microchem) moulds fabricated via photolithographic processes as described previously83–85.
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bioRxiv - Biophysics 2022Quote: ... devices for droplet generation and multilayer well-devices for droplet collection and imaging were produced on SU-8 (Microchem) moulds fabricated via photolithographic processes as described previously.57–59 Further details are provided in the Supporting Information.
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bioRxiv - Plant Biology 2019Quote: ... device was prepared by spin-coating negative photoresist (SU-8 3005 for 4.5 and 8.5 µm deep device, 3010 for 15 µm deep device; Microchem Corp.) on a silicon wafer ...
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bioRxiv - Microbiology 2020Quote: ... The master molds were fabricated in a cleanroom environment through a two-step photolithography procedure of SU-8 (Microchem) on silicon wafers ...
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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 ...