Solvent effects on the spectral diffusion dynamics of chlorophylls

Chlorophyll a (Chl a) and Chlorophyll b (Chl a) are pigment molecules that are vital to the process of photosynthesis in green plants. These molecules bind to the protein matrix through ligation with side groups in the protein scaffold. The manner in which protein side groups bind to the Mg2+ ions p...

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Main Author: Sim, Jamie Hung Ni
Other Authors: Tan Howe Siang
Format: Thesis-Master by Research
Language:English
Published: Nanyang Technological University 2020
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Online Access:https://hdl.handle.net/10356/143419
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spelling sg-ntu-dr.10356-1434192023-02-28T23:42:21Z Solvent effects on the spectral diffusion dynamics of chlorophylls Sim, Jamie Hung Ni Tan Howe Siang School of Physical and Mathematical Sciences HoweSiang@ntu.edu.sg Science::Chemistry Chlorophyll a (Chl a) and Chlorophyll b (Chl a) are pigment molecules that are vital to the process of photosynthesis in green plants. These molecules bind to the protein matrix through ligation with side groups in the protein scaffold. The manner in which protein side groups bind to the Mg2+ ions play an important role in the function of Chls, tuning the energy based on the nature of Chl-ligand interactions which aids in the acceptance of light energy for photosynthesis. In this thesis, we aim to understand the relaxation dynamics of Chl a and Chl b monomers in solvents to provide a greater insight of its behaviour in the protein matrix. We use ultrafast two-dimensional electronic spectroscopy (2DES) to determine the frequency fluctuation correlation function (FFCF) in a range of solvents, measuring the spectral diffusion process of the Qy transition using the Centre Line Slope (CLS) method. In this thesis, we experiment with how the interactions between the surrounding solvent molecules and Chl affect the FFCF in Chl a and Chl b. In chapter 2, the factor discussed is the polarity and hydrogen bonding ability of the surrounding solvent. We measure the FFCF decay for Chl a and Chl b in a protic solvent, methanol and aprotic solvents, tetrahydrofuran and diethyl ether, all of which have varying polarity. We find that the polarity of the solvent does not affect the FFCF decay but a significant ~ 40 ps component is only present in the protic solvent, methanol. We also observe that Chl b exhibits a higher level of inhomogeneous broadening as compared to Chl a despite their similarities in molecular structure. Next, in chapter 3 we discuss the effect of Lewis basicity of the surrounding solvent. We perform 2DES experiments on Chls in solvents of various Lewis basicity, which is measured by the pKa and BF3 affinity. From the decay of the FFCF, we find that certain timescales of the spectral diffusion dynamics are correlated to the Lewis basicity of the solvent. Additionally, control experiments and theoretical calculations are used to try and better understand the molecular mechanism causing this correlation. The sensitivity of Chls to the Lewis basicity of their surrounding solvent is due to the dynamics of the dative bond between the Mg2+ of the Chl and the heteroatom of the solvent molecule. We are able to show that the 2DES method can act as a sensitive probe to study the molecular mechanism associated with the Lewis basicity of a solvent. Master of Science 2020-08-31T06:29:53Z 2020-08-31T06:29:53Z 2020 Thesis-Master by Research Sim, J. H. N. (2020). Solvent effects on the spectral diffusion dynamics of chlorophylls. Master' thesis, Nanyang Technological University, Singapore. https://hdl.handle.net/10356/143419 10.32657/10356/143419 en This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License (CC BY-NC 4.0). application/pdf Nanyang Technological University
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic Science::Chemistry
spellingShingle Science::Chemistry
Sim, Jamie Hung Ni
Solvent effects on the spectral diffusion dynamics of chlorophylls
description Chlorophyll a (Chl a) and Chlorophyll b (Chl a) are pigment molecules that are vital to the process of photosynthesis in green plants. These molecules bind to the protein matrix through ligation with side groups in the protein scaffold. The manner in which protein side groups bind to the Mg2+ ions play an important role in the function of Chls, tuning the energy based on the nature of Chl-ligand interactions which aids in the acceptance of light energy for photosynthesis. In this thesis, we aim to understand the relaxation dynamics of Chl a and Chl b monomers in solvents to provide a greater insight of its behaviour in the protein matrix. We use ultrafast two-dimensional electronic spectroscopy (2DES) to determine the frequency fluctuation correlation function (FFCF) in a range of solvents, measuring the spectral diffusion process of the Qy transition using the Centre Line Slope (CLS) method. In this thesis, we experiment with how the interactions between the surrounding solvent molecules and Chl affect the FFCF in Chl a and Chl b. In chapter 2, the factor discussed is the polarity and hydrogen bonding ability of the surrounding solvent. We measure the FFCF decay for Chl a and Chl b in a protic solvent, methanol and aprotic solvents, tetrahydrofuran and diethyl ether, all of which have varying polarity. We find that the polarity of the solvent does not affect the FFCF decay but a significant ~ 40 ps component is only present in the protic solvent, methanol. We also observe that Chl b exhibits a higher level of inhomogeneous broadening as compared to Chl a despite their similarities in molecular structure. Next, in chapter 3 we discuss the effect of Lewis basicity of the surrounding solvent. We perform 2DES experiments on Chls in solvents of various Lewis basicity, which is measured by the pKa and BF3 affinity. From the decay of the FFCF, we find that certain timescales of the spectral diffusion dynamics are correlated to the Lewis basicity of the solvent. Additionally, control experiments and theoretical calculations are used to try and better understand the molecular mechanism causing this correlation. The sensitivity of Chls to the Lewis basicity of their surrounding solvent is due to the dynamics of the dative bond between the Mg2+ of the Chl and the heteroatom of the solvent molecule. We are able to show that the 2DES method can act as a sensitive probe to study the molecular mechanism associated with the Lewis basicity of a solvent.
author2 Tan Howe Siang
author_facet Tan Howe Siang
Sim, Jamie Hung Ni
format Thesis-Master by Research
author Sim, Jamie Hung Ni
author_sort Sim, Jamie Hung Ni
title Solvent effects on the spectral diffusion dynamics of chlorophylls
title_short Solvent effects on the spectral diffusion dynamics of chlorophylls
title_full Solvent effects on the spectral diffusion dynamics of chlorophylls
title_fullStr Solvent effects on the spectral diffusion dynamics of chlorophylls
title_full_unstemmed Solvent effects on the spectral diffusion dynamics of chlorophylls
title_sort solvent effects on the spectral diffusion dynamics of chlorophylls
publisher Nanyang Technological University
publishDate 2020
url https://hdl.handle.net/10356/143419
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