DNA Quantitation with the Open Colorimeter Plus
In this post we describe how to perform DNA Quantitation with a commercial dsDNA fluorescence kit and our new Open Colorimeter Plus.
Joanne Long
Update on developing a turbidity test with the Open Colorimeter
This is a continuation of our documentation on developing a turbidity test for the Open Colorimeter. Check out part one below for more background on this project!
Measuring turbidity with a modified Open ColorimeterIn this post we describe a prototype right-angle (R/A) cuvette holder for turbidity measurements.IO Rodeo
Measuring turbidity with a modified Open Colorimeter
In this post we describe a prototype right-angle (R/A) cuvette holder for turbidity measurements.
Spotlight on Caminos de Agua
For the 2nd in our Spotlight series we are excited to highlight the work of Caminos de Agua. They are a non-profit developing technologies under open-source licenses in partnership with leading research institutions, other non-profits, and members of directly affected communities.
Introduciendo el trabajo de Caminos de Agua
To read in English click here
Recién presentamos Spotlight, una nueva serie paralectores del boletín con proyectos científicos de hardware de código abierto, grupos comunitarios y empresas que apreciamos. Estos destacados grupos han desarrollado y/o están usando tecnología de código abierto de maneras únicas e inspiradoras alrededor del mundo.
Electrochemistry: Current dependence on scan rate
In this tutorial we use the Rodeostat potentiostat and a screen printed electrode to demonstrate current dependence on scan rate. We know that for freely-diffusible analytes like ascorbate, the anodic peak current depends linearly on the square root of the scan rate. This is described by the Randles-Sevcik equation. The
Making a multichannel open colorimeter
We modified the Open Colorimeter firmware to use athe Adafruit AS7341 multichannel light sensor board.