March 8, 2024
As part of our education initiative at Opentrons, we’re creating a series of case studies on educators who are…
February 5, 2024
The DAMP lab uses its expertise to deliver consistent, reproducible, and high-throughput results that can be shared among researchers. By…
March 31, 2023
Jannick Imbach, a scientist at IOB, chose automation to increase the efficiency and throughput of his lab’s molecular cloning protocols…
February 22, 2023
Single-cell RNA sequencing, or scRNAseq, enables transcriptomic analysis at a single-cell resolution, which can inform us of rare but important…
December 2, 2022
Stephane Plaisance, a molecular biologist at VIB, championed introducing automation to improve his lab’s NGS library prep workflows for long-…
May 25, 2022
AIM Biotech is using the OT-2 to implement automated drug discovery on in vitro platforms that provide more predictive data…
July 16, 2021
Michael Rourke, a doctoral chemistry researcher at Northwestern University, is advancing organic chemistry research using the OT-2 and the Opentrons…
June 25, 2021
Alaric Taylor, Yann Mamie, and Stefan Guldin of the Adaptive & Responsive Nanomaterials Group at UCL are fast-tracking materials innovation…
May 18, 2021
Parhelia Bio is disrupting the automated staining market. They’ve created a flexible, affordable slide and coverslip staining device using Opentrons.
April 15, 2021
Using Opentrons COVID-19 testing systems, #COVIDWarriors were able to process 10,000 tests per day across Spain to scale up population-level…
December 29, 2020
Anatoliy Trokhymchuk and Mengying Liu conduct mass spectrometry applications including MALDI-TOF MS target preparation with the Opentrons OT-2. Here’s how.
December 22, 2020
Fidabio creates devices to analyze protein interactions for biologic drug development using the OT-2 and the Opentrons Python Protocol API.