Table 1.
MOCs: devices where a lab on chip integrates fluidic and optical components (for illumination or detection). Resolution (column 2) is the highest resolution reported in the corresponding references (Refs). NS indicates Non Specified in the reference. LF indicates that the device is lens free.
| Microscope technique | Spatial resolution | Sensor/ pixel size | Detection objective | Samples | Notes | Refs | |
|---|---|---|---|---|---|---|---|
| TRANSILLUMINATION | Shadow Imaging |
NS | CMOS 10 μm | LF | Caenorhabdtis Elegans | Robust and compact lensless platform. Low spatial resolution, limited by the pixel size. | 43 |
| NS | CCD 10 μm | LF | Blood cells, fibroblasts, stem cells, AML‐12 hepatocytes | 44 | |||
| Nanogrid | 0.5 μm | CCD 20 μm | LF | C. elegans | Subpixel resolution, limited by the aperture size. | 45 | |
| < 1 μm | CMOS 9.9 μm | LF | C. Elegans and Chlamydomonas cells | 46 | |||
| In line DH | 0.6 μm | CMOS 2.2 μm | LF | C. Elegans, Giardia lamblia and Mulberry pollen | Large field of view obtained with subpixel shifted acquisitions. Computationally intensive algorithms are required to reconstruct the images. | 47, 53 | |
| NS | CMOS 5.5 μm | LF | Blood cells | Image acquisition flowing the sample at high flow rates. A pulsed laser is required to obtain neat images of samples at high flow rates. | 54 | ||
| SROFM | 0.75 μm | CMOS 3.2 μm | LF | Euglena gracilis, Entamoeba invadens | No need of mechanical precision translation mechanisms. Combines Nanogrid imaging with sub pixel image shifting. | 55 | |
| Off axis DH | NS | CCD 4.8 μm | 20× 0.5NA Printed lens |
Thalassiosira rotula and C. Elegans | Reduced computational efforts. The optical elements are integrated directly on the microfluidic platform. Coherent source required. | 48, 56 | |
| FLUORESCENCE | Lens Free | NS | CCD 9 μm | LF | Microparticles, White blood cells | Large field of view. Low spatial resolution, limited by the pixel size. | 69, 70, 71 |
| FOFM | 0.6 μm | CMOS 5.2 μm | LF | HeLa cells | Compact lensless platform with resolution improved by a Fresnel zone plate array | 73 | |
| LSFM | NS (transverse) 4.6–7.5 μm(axial) |
EMCCD 16 μm | 40×,0.75NA | Membrane vesicles | Light sheet illumination and sample delivery integrated on the chip | 80 | |
| ≈ 0.8 μm (transverse) ≈ 10 μm (axial) |
CMOS‐CCD 5.6–13 μm | 20×, 0.45NA | Tissue mimics (tumor spheroids) | Light sheet illumination, sample delivery and sample scan integrated on the chip | 81 |