In situ/In vivo Optical Microspectroscopy to Probe the Emergence of Morphology

Authors

  • Natercia Barbosa Dept. Physical Chemistry, University of Geneva, CH-1204 Geneva
  • Oscar Urquidi Dept. Physical Chemistry, University of Geneva, CH-1204 Geneva
  • Johanna Brazard Dept. Physical Chemistry, University of Geneva, CH-1204 Geneva
  • Takuji B. M. Adachi Dept. Physical Chemistry, University of Geneva, CH-1204 Geneva

DOI:

https://doi.org/10.2533/chimia.2024.50

PMID:

38430064

Keywords:

Biomineralization, Crystallization, Laser tweezer Raman microspectroscopy, Single crystal nucleation spectroscopy (SCNS), Time-resolved dynamic light scattering microscopy (micro-DLS)

Abstract

Morphology governs function. Yet, understanding and controlling the emergence of morphology at the molecular level remains challenging. The difficulty in studying the early stage of morphology formation is due to its stochastic nature both spatially and temporally occurring at the nanoscale. This nature has been particularly detrimental for the application of optical spectroscopy. To overcome this problem, we have been developing new in situ/in vivo optical spectroscopy tools, which are label-free and non-invasive. This account highlights several examples of how optical spectroscopy can become an important tool in studying the birth of morphology.

CHIMIA Vol. 78 No. 1/2 (2024): Young Chemistry Professors and Ambizione Fellows in Switzerland

Downloads

Published

2024-02-28

Issue

Vol. 78 No. 1/2 (2024): Ambizione Fellows and Young Professors in Chemistry in Switzerland

Section

Scientific Articles

License

Copyright (c) 2024 Natercia Barbosa, Oscar Urquidi, Johanna Brazard, Takuji B. M. Adachi

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

How to Cite

[1]
N. Barbosa, O. Urquidi, J. Brazard, T. B. M. Adachi, Chimia 2024, 78, 50, DOI: 10.2533/chimia.2024.50.