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SLAS technology

Showing results (381-390 of 736) with videos related to

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SLAS Technology|January 21, 2022
Automation of a multiplex agglutination-PCR (ADAP) type 1 diabetes (T1D) assay for the rapid analysis of islet autoantibodiesFelipe de Jesus Cortez, David Gebhart, Devangkumar Tandel, et al.
SLAS Technology|January 21, 2022
Automation enables high-throughput and reproducible single-cell transcriptomics library preparationDavid Kind, Praveen Baskaran, Fidel Ramirez, et al.
SLAS Technology|January 21, 2022
Complex biological questions being addressed using single cell sequencing technologiesTao Yu, Jonathan Scolnick
SLAS Technology|August 6, 2019
Typography-Like 3D-Printed Templates for the Lithography-Free Fabrication of Microfluidic ChipsWenqiong Su, Yulong Li, Lulu Zhang, et al.
SLAS Technology|August 20, 2019
Fabrication of a Three-Layer PDMS Pneumatic Microfluidic Chip for Micro Liquid Sample OperationXuling Liu, Songjing Li
SLAS Technology|September 3, 2021
Summit: Automated Analysis of Arrayed Single-Cell Gel ElectrophoresisJulea Vlassakis, Kevin A Yamauchi, Amy E Herr
SLAS Technology|August 15, 2022
Freestanding hydrogel lumens for modeling blood vessels and vasodilationAshley M Dostie, Hannah G Lea, Ulri N Lee, et al.
SLAS Technology|June 9, 2020
An Automated Tube Labeler for High-Throughput Purification LaboratoriesJeffrey Y Pan, David Chang-Yen, David P Blanchard, et al.
SLAS Technology|September 20, 2021
Erratum to "Rapid Prototyping of a Cyclic Olefin Copolymer Microfluidic Device for Automated Oocyte Culturing"
SLAS Technology|August 13, 2021
RGB Color Model Analysis for a Simple Structured Polydimethylsiloxane Pneumatic MicromixerXuling Liu, Duanqin Zhang, Jie Liu, et al.
Pageof 74

Showing results (381-390 of 736) with videos related to

Sort By:
Pageof 74
SLAS Technology|January 21, 2022
Automation of a multiplex agglutination-PCR (ADAP) type 1 diabetes (T1D) assay for the rapid analysis of islet autoantibodiesFelipe de Jesus Cortez, David Gebhart, Devangkumar Tandel, et al.
SLAS Technology|January 21, 2022
Automation enables high-throughput and reproducible single-cell transcriptomics library preparationDavid Kind, Praveen Baskaran, Fidel Ramirez, et al.
SLAS Technology|January 21, 2022
Complex biological questions being addressed using single cell sequencing technologiesTao Yu, Jonathan Scolnick
SLAS Technology|August 6, 2019
Typography-Like 3D-Printed Templates for the Lithography-Free Fabrication of Microfluidic ChipsWenqiong Su, Yulong Li, Lulu Zhang, et al.
SLAS Technology|August 20, 2019
Fabrication of a Three-Layer PDMS Pneumatic Microfluidic Chip for Micro Liquid Sample OperationXuling Liu, Songjing Li
SLAS Technology|September 3, 2021
Summit: Automated Analysis of Arrayed Single-Cell Gel ElectrophoresisJulea Vlassakis, Kevin A Yamauchi, Amy E Herr
SLAS Technology|August 15, 2022
Freestanding hydrogel lumens for modeling blood vessels and vasodilationAshley M Dostie, Hannah G Lea, Ulri N Lee, et al.
SLAS Technology|June 9, 2020
An Automated Tube Labeler for High-Throughput Purification LaboratoriesJeffrey Y Pan, David Chang-Yen, David P Blanchard, et al.
SLAS Technology|September 20, 2021
Erratum to "Rapid Prototyping of a Cyclic Olefin Copolymer Microfluidic Device for Automated Oocyte Culturing"
SLAS Technology|August 13, 2021
RGB Color Model Analysis for a Simple Structured Polydimethylsiloxane Pneumatic MicromixerXuling Liu, Duanqin Zhang, Jie Liu, et al.
Pageof 74