Spatiotemporal Microscopy: Shining Light on Transport Phenomena

Guillermo D. Brinatti Vazquez, Giulia Lo Gerfo Morganti, Alexander Block, Niek F. van Hulst, Matz Liebel (Corresponding author), Klaas-Jan Tielrooij (Corresponding author)

Onderzoeksoutput: Bijdrage aan tijdschriftArtikel recenserenpeer review

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Samenvatting

Transport phenomena like diffusion, convection, and drift play key roles in the sciences and engineering disciplines. They belong to the most omnipresent and important phenomena in nature that describe the motion of entities such as mass, charge or heat. Understanding and controlling these transport phenomena is crucial for a host of industrial technologies and applications, from cooling nuclear reactors to nanoscale heat-management in the semiconductor industry. For decades, macroscopic transport techniques have been used to access important parameters such as charge mobilities or thermal conductivities. While being powerful, they often require physical contacts, which can lead to unwanted effects. Over the past years, an exciting solution has emerged: a technique called spatiotemporal microscopy (SPTM) that accesses crucial transport phenomena in a contactless, all-optical, fashion. This technique offers powerful advantages in terms of accessible timescales, down to femtoseconds, and length scales, down to nanometres, and, further, selectively observes different species of interest. This tutorial review discusses common experimental configurations of SPTM and explains how they can be implemented by those entering the field. This review highlights the broad applicability of SPTM by presenting several exciting examples of transport phenomena that were unravelled thanks to this technique.

Originele taal-2Engels
Artikelnummer2300584
Aantal pagina's16
TijdschriftAdvanced Electronic Materials
Volume10
Nummer van het tijdschrift2
DOI's
StatusGepubliceerd - feb. 2024

Financiering

GDBV, GLGM, and NFvH acknowledged support received through the MCIN/AEI project PRE2019‐091051, the “Severo Ochoa” program for Centers of Excellence in R&D CEX2019‐000910‐S, Fundació Privada Cellex, Fundació Privada Mir‐Puig, and the Generalitat de Catalunya through the CERCA program. NFvH acknowledged the financial support by the European Commission (ERC Advanced Grant 101054846‐FastTrack). ML was financially supported by the European Union (ERC, PIRO, grant number: 101076859). ICN2 was supported by the Severo Ochoa program from Spanish MINECO Grant No. SEV‐2017‐0706. KJT. acknowledged funding from the European Union's Horizon 2020 research and innovation program under Grant Agreement No. 804349 (ERC StG CUHL), RYC fellowship No. RYC‐2017‐22330 and IAE project PID2019‐111673GB‐I00. Views and opinions expressed are however those of the author(s) only and do not necessarily reflect those of the European Union or the European Research Council. Neither the European Union nor the granting authority can be held responsible for them.

FinanciersFinanciernummer
PIRO101076859
Fundación Cellex
European Commission
European Research Council101054846‐FastTrack
Generalitat de Catalunya
Ministerio de Economía y CompetitividadSEV‐2017‐0706
Horizon 2020804349, PID2019‐111673GB‐I00, RYC‐2017‐22330
Institute for Applied EcologyPID2019-111673GB-I00
European Commission
Ministerio de Ciencia e Innovación
Agencia Estatal de InvestigaciónPRE2019‐091051

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