Add to ORKGA hybrid GaN μLED platform developed for wearable illumination is adapted here for fluorescence sensing. Proof-of-principle detection of colloidal quantum dots down to 80 pM using a mobile phone camera is demonstrate
In recent years, gallium nitride-based light-emitting diodes (GaN LEDs) have been continuously devel...
This paper describes the implementation of a low-cost technology platform for fluorescence-based opt...
Abstract: Cell phones and smart phones can be reconfigured as biomedical sensor devices but this req...
A micro-LED-coupled multimode slab waveguide is reported for fluorescence sensing. The device consis...
We demonstrate a microfluidics-based fluorescence detection device where the filters, source, detect...
We demonstrate a microfluidics-based fluorescence detection device where the filters, source, detect...
The blue OLED emission from a mobile phone was characterized, revealing a sharp emission band center...
Smartphones are essential components of daily life. These devices feature built-in cameras and light...
A mechanically-flexible device for uniform area illumination is presented. The device consists of a ...
Development of PCB-integrateable microsensors for monitoring chemical species is a goal in areas suc...
Microfluidic systems based on fluorescence detection have been developed and applied for many biolog...
The use of smartphone for the detection of biological constituents is becoming a useful tool as a po...
Use of a smartphone as an optical detector for paper microfluidic devices has recently gained substa...
In recent years, gallium nitride-based light-emitting diodes (GaN LEDs) have been continuously devel...
This experimental study investigates the feasibility of using a lens-less charge-coupled device (CCD...
In recent years, gallium nitride-based light-emitting diodes (GaN LEDs) have been continuously devel...
This paper describes the implementation of a low-cost technology platform for fluorescence-based opt...
Abstract: Cell phones and smart phones can be reconfigured as biomedical sensor devices but this req...
A micro-LED-coupled multimode slab waveguide is reported for fluorescence sensing. The device consis...
We demonstrate a microfluidics-based fluorescence detection device where the filters, source, detect...
We demonstrate a microfluidics-based fluorescence detection device where the filters, source, detect...
The blue OLED emission from a mobile phone was characterized, revealing a sharp emission band center...
Smartphones are essential components of daily life. These devices feature built-in cameras and light...
A mechanically-flexible device for uniform area illumination is presented. The device consists of a ...
Development of PCB-integrateable microsensors for monitoring chemical species is a goal in areas suc...
Microfluidic systems based on fluorescence detection have been developed and applied for many biolog...
The use of smartphone for the detection of biological constituents is becoming a useful tool as a po...
Use of a smartphone as an optical detector for paper microfluidic devices has recently gained substa...
In recent years, gallium nitride-based light-emitting diodes (GaN LEDs) have been continuously devel...
This experimental study investigates the feasibility of using a lens-less charge-coupled device (CCD...
In recent years, gallium nitride-based light-emitting diodes (GaN LEDs) have been continuously devel...
This paper describes the implementation of a low-cost technology platform for fluorescence-based opt...
Abstract: Cell phones and smart phones can be reconfigured as biomedical sensor devices but this req...