2D Electronic Spectroscopic Techniques for Quantum Technology Applications

2D electronic spectroscopy (2DES) techniques have gained particular interest given their capability of following ultrafast coherent and noncoherent processes in real-time. Although the fame of 2DES is still majorly linked to the investigation of energy and charge transport in biological light-harvesting complexes, 2DES is now starting to be recognized as a particularly valuable tool for studying transport processes in artificial nanomaterials and nanodevices. Particularly meaningful is the possibility of assessing coherent mechanisms active in the transport of excitation energy in these materials toward possible quantum technology applications. The diverse nature of these new target samples poses significant challenges and calls for a critical rethinking of the technique and its different realizations. With the confluence of promising new applications and rapidly developing technical capabilities, the enormous potential of 2DES techniques to impact the field of nanosystems, quantum technologies, and quantum devices is here delineated.

Automated summary

2D electronic spectroscopy techniques are valuable for studying transport processes in artificial nanomaterials and nanodevices, particularly in assessing coherent mechanisms active in the transport of excitation energy towards possible quantum technology applications. The potential impact of 2DES techniques on the field of nanosystems, quantum technologies, and quantum devices is significant, given the promising new applications and rapidly developing technical capabilities.