Infrared spectroscopic analysis of hydrogen-bonding interactions in cryopreservation solutions

Caliskan, Sükrü; Oldenhof, Harriëtte; Temeloglu, Pelin; Sieme, Harald; Wolkers, Willem F.

doi:10.1016/j.bbagen.2022.130254

Cited by 5 publications

(2 citation statements)

References 37 publications

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“…This band contains also O H stretching information which is sensitive to the change of hydrogen bond state of water and can be directly related to hydrogen bond strength (Ojha et al, 2018). Also, different from the band at 3000-3800 cm À1 which has been decomposed into different numbers of peaks (Brubach et al, 2005;Caliskan et al, 2023;Laurson et al, 2020), the ν2 + ν3 combination band is commonly decomposed into three gaussian peaks, denoted as S 0 , S 1 and S 2 (Figure 1b), referring to water molecules in ascending hydrogen bond strength and descending wavenumber order. The area of the ν2 + ν3 combination band has been proved proportional to water contents in the sample (Otsuka et al, 2017).…”

Section: Nir Spectroscopy and Relaxation Time Calculationmentioning

confidence: 99%

“…This is because of both the difficulty of the construction of a theoretical model and the vagueness of the interpretation of both infrared and dielectric spectra. For example, there is no consensus on the decomposition of the OH stretching band of water at 3000–3800 cm −1 (Brubach et al, 2005; Caliskan et al, 2023; Laurson et al, 2020). As for the dielectric spectrum of water, although Debye's diffusive theory has been the most widely accepted principle to describe its relaxation behavior, it is challenged by the new model (Laage & Hynes, 2006; Popov et al, 2016).…”

Section: Introductionmentioning

confidence: 99%

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A method for measuring dielectric relaxation of water by NIR spectroscopy: Applicability and application to measurement of water diffusion coefficient

Zhang

Matsuura

Shirakashi

2023

J Food Process Engineering

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Deterioration of biomaterial is subject to the interaction between biomolecules and water, which is often of special interest to the realization of long-term preservation.In previous study, we reported the relationship between dielectric rotational relaxation time and the ν2 + ν3 NIR combination band of water as well as the theory behind it using saccharide solutions as examples and proposed a method accordingly which takes advantages of the infrared microscope to measure the dielectric relaxation time of water in biomaterials. In this work, we examined protein, polypeptide, sugar alcohol and some shelf-stable vegetables to further discuss its applicability and limit. We also proved that this method can be used for measuring water diffusion coefficient and showed example of how the diffusion coefficient can be used to predict water distribution during drying process at a significantly enhanced spatial resolution relative to other techniques.

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Section: Nir Spectroscopy and Relaxation Time Calculationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

A method for measuring dielectric relaxation of water by NIR spectroscopy: Applicability and application to measurement of water diffusion coefficient

Zhang

Matsuura

Shirakashi

2023

J Food Process Engineering

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Probing Temperature‐Dependence of Hydrogen Bonding in Condensed Polymeric Materials with Aggregation‐Induced Emission

Lu,

Fan,

2024

ChemistrySelect

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Hydrogen bonding is pivotal in chemical and biological systems, yet detecting it in condensed matter, especially polymers, remains challenging. We propose a straightforward method using an aggregation‐induced emission luminogen (AIEgen) probe, demonstrated in a specially designed hydrogen‐bonded polymer with UPy groups. Unlike conventional covalent bonding, our approach involves mixing the AIEgen probe with polymers, inducing a significant change in fluorescence intensity due to the exceptional AIE characteristics. Validation involved comparative analyses with traditional methods, including dynamic mechanical analysis and infrared spectroscopy, across various temperatures. Our AIEgen‐based approach offers a more intuitive assessment of hydrogen bonding dynamics than the complexity of infrared spectroscopy. Importantly, hydrogen‐bonding transition temperatures determined by our AIEgen‐based method are only 6–8 degrees higher than those from dynamic mechanical analyses, confirming accuracy under faster, simpler conditions. This innovative technique not only opens a new avenue for investigating hydrogen bonding dynamics within confined polymer chains but also enhances the precision of transition temperature determination in solid‐state materials. Our study highlights the vital role of hydrogen bonding in functional materials, promising exciting possibilities for further advancements in this field.

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Synthesis of iron-cobalt-loaded biochar catalyst using CO2-activated goat manure for the enhanced catalytic cracking of toluene

Wang,

Jin,

Zhang

et al. 2025

Journal of Analytical and Applied Pyrolysis

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Infrared spectroscopic analysis of hydrogen-bonding interactions in cryopreservation solutions

Cited by 5 publications

References 37 publications

A method for measuring dielectric relaxation of water by NIR spectroscopy: Applicability and application to measurement of water diffusion coefficient

A method for measuring dielectric relaxation of water by NIR spectroscopy: Applicability and application to measurement of water diffusion coefficient

Probing Temperature‐Dependence of Hydrogen Bonding in Condensed Polymeric Materials with Aggregation‐Induced Emission

Synthesis of iron-cobalt-loaded biochar catalyst using CO2-activated goat manure for the enhanced catalytic cracking of toluene

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