Deacidification of acidic books and paper by means of non-aqueous dispersions of alkaline particles: A review focusing on completeness of the reaction

Hubbe, Martin A.; Smith, Richard; Zou, Xuejun; Katuščák, Svetozár; Potthast, Antje; Ahn, Kyujin

doi:10.15376/biores.12.2.hubbe

Cited by 38 publications

(9 citation statements)

References 80 publications

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“…The surface pH values of the modified papers were usually in the acid range. In some cases, the pH values were ≥ 6 which are promising values for the deacidification of acidic papers, the pH of which is usually around 4 (Hubbe et al 2017). The use of sols appears to be a more suitable form of application, and, of course, the more suitable ratio of magnesium and aluminium is 5:1.…”

Section: Application Of Hydrotalcites Colloidal Dispersions For Modif...mentioning

confidence: 99%

Preparation and characterisation of hydrotalcites colloid dispersions suitable for deacidification of paper information carriers

Jurišová,

Danielik,

Malečková

et al. 2023

Preprint

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Hydrotalcite samples were prepared in the form of powder and/or sol under different conditions and characterised by various techniques. A suitable system of liquid carriers consisting of perfluoroheptane, isopropanol, and water (PFH-IPA-H2O) was chosen to apply HTlcs as deacidifying agents to paper. The areas of miscibility and immiscibility in the PFH-IPA-H2O system were determined at a temperature of 25 °C. The properties of HTlcs dispersed in the prepared solvent were measured. The size of the particles was determined by optical microscopy with image analysis. The average particle size ranges from 1 µm to 2 µm. The settling speed of particles in the prepared colloidal systems was monitored using turbidimetry. Sols in the mixture of solvents had uniformly dispersed particles that settled slowly. The effect of the prepared colloidal HTlcs dispersions on the properties of the paper, specifically the pH of its surface, was also tested. Hydrotalcites in the form of a sol with a ratio of magnesium to aluminium of 5:1 was found to be promising candidates for deacidification. The use of surfactant additives in the preparation of HTlcs did not positively affect the properties of the paper.

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Section: Application Of Hydrotalcites Colloidal Dispersions For Modif...mentioning

confidence: 99%

Preparation and characterisation of hydrotalcites colloid dispersions suitable for deacidification of paper information carriers

Jurišová,

Danielik,

Malečková

et al. 2023

Preprint

View full text Add to dashboard Cite

show abstract

“…For example, Horst showed a decrease of the pH from 10 to 7 during 50 years of natural ageing, whereas some AR still remained (Horst et al, 2020). Moreover, several studies point out the question of diffusion and reactivity of AR since the particles are heterogeneously distributed in the paper (Bégin et al, 1998;Hubbe et al, 2017). As a result, they could diffuse and react slower than the production of acids.…”

Section: Acidificationmentioning

confidence: 99%

“…These institutions follow climate guidelines for the conservation of their paper-based documents and can resort to treatments to tackle both chemical and mechanical degradation. In particular, several deacidification treatments that leave an alkaline reserve have been proven effective for hindering the decrease of pH of paper, a threatening issue for paper degradation (Arney et al, 1980;Barrow & Sproull, 1959;Hubbe et al, 2017). In a review article, Baty mentioned that these treatments are even more effective on least degraded papers (Baty et al, 2010).…”

Section: Introductionmentioning

confidence: 99%

Decoupling hydrolysis and oxidation of cellulose in permanent paper aged under atmospheric conditions

Vibert

Fayolle

Ricard

et al. 2023

Carbohydrate Polymers

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“…Moreover, minimum intervention and reversibility are two important criteria to be considered during paper deacidification . The common paper deacidification methods include gaseous and liquid (in aqueous or organic solution) processes. ,− In gaseous deacidification, amine compounds are important alkaline agents, including ammonia, hexamethylene tetramine, and morpholine . Additionally, nonamine agents like diethyl zinc are also developed and used .…”

Section: Introductionmentioning

confidence: 99%

Reversible Deacidification and Preventive Conservation of Paper-Based Cultural Relics by Mineralized Bacterial Cellulose

Zhang,

Yao,

Yan

et al. 2024

ACS Appl. Mater. Interfaces

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Paper-based cultural relics experience irreversible aging and deterioration during long-term preservation. The most common process of paper degradation is the acid-catalyzed hydrolysis of cellulose. Nowadays, deacidification has been considered as a practical way to protect acidified literature; however, two important criteria of minimal intervention and reversibility should be considered. Inspired by the superior properties of bacterial cellulose (BC) and its structural similarity to paper, herein, the mineralized BC membranes are applied to deacidification and conservation of paper-based materials for the first time. Based on the enzyme-induced mineralization process, the homogeneous and high-loaded calcifications of hydroxyapatite (HAP) and calcium carbonate (CaCO3) nanoparticles onto the nanofibers of BC networks have been achieved, respectively. The size, morphology, structure of minerals, as well as the alkalinity and alkali reserve of BC membranes are well controlled by regulating enzyme concentration and mineralization time. Compared with HAP/CaCO3-immersed method, HAP/CaCO3–BC membranes show more efficient and sustained deacidification performance on paper. The weak alkalinity of mineralized BC membranes avoids the negative effect of alkali on paper, and the high alkali reserve implies a good sustained-release effect of alkali to neutralize the future generated acid. The multiscale nanochannels of the BC membrane provide ion exchange and acid/alkali neutralization channels between paper and the BC membrane, and the final pH of protected paper can be well stabilized in a certain range. Most importantly, this BC-deacidified method is reversible since the BC membrane can be removed without causing any damage to paper and the original structure and fiber morphology of paper are well preserved. In addition, the mineralized BC membrane provides excellent flame-retardant performance on paper thanks to its unique organic–inorganic composite structure. All of these advantages of the mineralized BC membrane indicate its potential use as an effective protection material for the reversible deacidification and preventive conservation of paper-based cultural relics.

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Deacidification of acidic books and paper by means of non-aqueous dispersions of alkaline particles: A review focusing on completeness of the reaction

Cited by 38 publications

References 80 publications

Preparation and characterisation of hydrotalcites colloid dispersions suitable for deacidification of paper information carriers

Preparation and characterisation of hydrotalcites colloid dispersions suitable for deacidification of paper information carriers

Decoupling hydrolysis and oxidation of cellulose in permanent paper aged under atmospheric conditions

Reversible Deacidification and Preventive Conservation of Paper-Based Cultural Relics by Mineralized Bacterial Cellulose

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