Add to ORKGLive monitoring of microorganisms growth in liquid medium is a desired parameter for many research fields. A wildly used approach for determining microbial liquid growth quantification is based on light scattering as the result of the physical interaction of light with microbial cells. These measurements are generally achieved using costly table-top instruments; however, a live, reliable, and straight forward instrument constructed using parts that are inexpensive may provide opportunities for many researchers. Here, such an instrument has been constructed and tested. It consists of modular test tube holding chambers, each with a low power monochromatic light-emitting diode, and a monolithic photodiode. A microcontroller connects to all mod...
The power and simplicity of visual colony counting have made it the mainstay of microbiological anal...
Cell volume fractions and cell concentrations were measured in submerged cultures of Saccharomyces c...
A poly(dimethylsiloxane) biophotonic lab-on-a-chip (bioPhLoC) containing two chambers, an incubation...
We propose a new and simple method for the measurement of microbial concentrations in highly diluted...
<p>A. Bacterial cultures (15 mL) are grown in glass vials with customized Teflon tops that allow inf...
Partial support for this work was provided by NSF Expeditions in Computing Program Award #1522074 as...
<div><p>Background</p><p>Continuous culture devices can be used for various purposes such as establi...
We developed a microfluidic resistive pulse-based cell sensor driven by a syringe pump and a small e...
Continuous culture devices can be used for various purposes such as establishing reproducible growth...
A procedure for microbial cell density determination with a high-throughput densitometric assay was ...
The current standard protocols for characterizing the optogenetic circuit of bacterial cells using f...
The determination of cell numbers or biomass in laboratory cultures or environmental samples is usua...
Pipettes are the most versatile and most frequently used handling device in bio-chemical laboratorie...
To quantitatively assay the growth behaviour of single cells, a shallow microchamber-structured micr...
The spectrophotometer has been used for decades to measure the density of bacterial populations as t...
The power and simplicity of visual colony counting have made it the mainstay of microbiological anal...
Cell volume fractions and cell concentrations were measured in submerged cultures of Saccharomyces c...
A poly(dimethylsiloxane) biophotonic lab-on-a-chip (bioPhLoC) containing two chambers, an incubation...
We propose a new and simple method for the measurement of microbial concentrations in highly diluted...
<p>A. Bacterial cultures (15 mL) are grown in glass vials with customized Teflon tops that allow inf...
Partial support for this work was provided by NSF Expeditions in Computing Program Award #1522074 as...
<div><p>Background</p><p>Continuous culture devices can be used for various purposes such as establi...
We developed a microfluidic resistive pulse-based cell sensor driven by a syringe pump and a small e...
Continuous culture devices can be used for various purposes such as establishing reproducible growth...
A procedure for microbial cell density determination with a high-throughput densitometric assay was ...
The current standard protocols for characterizing the optogenetic circuit of bacterial cells using f...
The determination of cell numbers or biomass in laboratory cultures or environmental samples is usua...
Pipettes are the most versatile and most frequently used handling device in bio-chemical laboratorie...
To quantitatively assay the growth behaviour of single cells, a shallow microchamber-structured micr...
The spectrophotometer has been used for decades to measure the density of bacterial populations as t...
The power and simplicity of visual colony counting have made it the mainstay of microbiological anal...
Cell volume fractions and cell concentrations were measured in submerged cultures of Saccharomyces c...
A poly(dimethylsiloxane) biophotonic lab-on-a-chip (bioPhLoC) containing two chambers, an incubation...