Introduction to the protocol Overview of the protocol
Percent Identity Comparison of R9.4.1 and R10.3 flow cells. | Download Scientific Diagram
Benchmarking of Nanopore R10.4 and R9.4.1 flow cells in single-cell whole-genome amplification and whole-genome shotgun sequencing - ScienceDirect
Flow Cell (R9.4.1)
Frontiers | Towards Real-Time and Affordable Strain-Level Metagenomics-Based Foodborne Outbreak Investigations Using Oxford Nanopore Sequencing Technologies
Community - MinKNOW: Re-using a flow cell
Flow cells
Benchmarking of Nanopore R10.4 and R9.4.1 flow cells in single-cell whole-genome amplification and whole-genome shotgun sequencing - ScienceDirect
Loading and running the MinION for SARS-CoV-2 genome sequencing. (A)... | Download Scientific Diagram
Government Scientific Source
Flow cells for MinION devices, Oxford Nanopore Technologies | VWR
Genes | Free Full-Text | Rapid and Cost-Efficient Enterovirus Genotyping from Clinical Samples Using Flongle Flow Cells
A nanopore interface for higher bandwidth DNA computing | Nature Communications
PDF) Benchmarking of Nanopore R10.4 and R9.4.1 flow cells in single-cell whole-genome amplification and whole-genome shotgun sequencing
Flow cells
MinION™ DNA/RNA Sequencing Device | VWR
Nanopore store: - Flow cells
Is my flow cell FLO-MIN106 or FLO-MIN114? | Oxford Nanopore Technologies Help Center
Oxford Nanopore on X: "CB: Innovations around the length of a nanopore drive accuracy even further. R10.4 better at homopolymers than R9.4.1. Next gen pores with even longer read heads are in
R10.3: the newest nanopore for high accuracy nanopore sequencing – now available in store
Oxford Nanopore on X: "We're pleased to announce that R10 flow cells will start shipping from 10th July onward. They're available to buy in the store — simply select the R10 pore
Flongle | Oxford Nanopore Technologies
Flow Cell (R9.4.1)
Benchmarking of Nanopore R10.4 and R9.4.1 flow cells in single-cell whole-genome amplification and whole-genome shotgun sequencing - ScienceDirect