TMDs exhibit fascinating photophysical behavior, including strong excitonic effects, layer-dependent band structures, and spin–valley coupling. These make them highly relevant for research in optoelectronics, valleytronics, and quantum photonics.
To fully understand how excitons, trions, and defects behave in these atomically thin materials, precise time-resolved optical characterization is essential.
Here’s how our systems fit into typical TMD research applications:
- MicroTime 100 (BXFM body) > Spatially resolved TRPL / FLIM
- MicroTime 100 (BXFM body) > Single-spot lifetime measurements
- MicroTime 100 (BXFM body) > Thin-film characterization
- MicroTime 100 (BXFM body) + FluoTime 300 > Micro-PL on local features or flakes
If you are working in a microscopy lab, the compact upright photoluminescence microscope MicroTime 100 is usually the most comprehensive tool for spatially and time-resolved studies on monolayers, flakes, or heterostructures.