Add to ORKGA green LED is demonstrated to generate a uniform square illumination pattern for an on-chip imaging flow cytometer system. The proposed system is used to perform the detection of a bead-based immunoassay for a sepsis biomarker, procalcitonin
This article takes a special focus on signal amplification technologies in immunoassays and new gene...
This paper presents an optical concept for the read-out of a parallel, bead-based fluorescence immun...
A novel inexpensive optical-sensing technique has been developed for colorimetric flow analysis. Thi...
We present and demonstrate a light-emitting diode (LED)-excited imaging cytometer for the detection ...
©2021 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
In recent years, microfluidic lab-on-a-chip devices have made tremendous progress. Many new features...
Flow cytometry is an important tool for medicine and biology with applications from clinical diagnos...
In the previous article [Part 1 (8)], we have modelled alternative approaches to design of practical...
A microfabricated flow cytometer has been developed for the analysis of micron-sized polymer beads o...
Flow cytometry is a standard technique used for cell sorting and analysis. The technology has been i...
Rapid and affordable point-of-care (POC) diagnostics with superior sensitivity are urgently needed i...
This dissertation develops technology for microfluidic point-of-care immunoassay devices. This resea...
* These authors made equal contributions to this work. Due to a number of recent technological advan...
Recent advances in MEMS technology have provided an opportunity to develop microfluidic devices with...
The use of smartphone for the detection of biological constituents is becoming a useful tool as a po...
This article takes a special focus on signal amplification technologies in immunoassays and new gene...
This paper presents an optical concept for the read-out of a parallel, bead-based fluorescence immun...
A novel inexpensive optical-sensing technique has been developed for colorimetric flow analysis. Thi...
We present and demonstrate a light-emitting diode (LED)-excited imaging cytometer for the detection ...
©2021 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
In recent years, microfluidic lab-on-a-chip devices have made tremendous progress. Many new features...
Flow cytometry is an important tool for medicine and biology with applications from clinical diagnos...
In the previous article [Part 1 (8)], we have modelled alternative approaches to design of practical...
A microfabricated flow cytometer has been developed for the analysis of micron-sized polymer beads o...
Flow cytometry is a standard technique used for cell sorting and analysis. The technology has been i...
Rapid and affordable point-of-care (POC) diagnostics with superior sensitivity are urgently needed i...
This dissertation develops technology for microfluidic point-of-care immunoassay devices. This resea...
* These authors made equal contributions to this work. Due to a number of recent technological advan...
Recent advances in MEMS technology have provided an opportunity to develop microfluidic devices with...
The use of smartphone for the detection of biological constituents is becoming a useful tool as a po...
This article takes a special focus on signal amplification technologies in immunoassays and new gene...
This paper presents an optical concept for the read-out of a parallel, bead-based fluorescence immun...
A novel inexpensive optical-sensing technique has been developed for colorimetric flow analysis. Thi...