4.7 Review

Application of Inorganic Nanomaterials in Cultural Heritage Conservation, Risk of Toxicity, and Preventive Measures

Journal

NANOMATERIALS
Volume 13, Issue 9, Pages -

Publisher

MDPI
DOI: 10.3390/nano13091454

Keywords

cultural heritage conservation; nanomaterials; nanotoxicity; prevention measurements; spraying; brushing; cleaning; personal protection equipment; control banding; international regulations

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Nanotechnology has made significant progress in the conservation of architectural, artistic, archaeological, or museum heritage. However, it brings both advantages and disadvantages, as nanomaterials can have negative impacts on human and animal health and the environment. It is important to raise awareness of nanotoxicity risks and provide guidelines for prevention and control of toxicity. Additionally, the review discusses current international regulations, qualitative risk assessment methods, and the latest trends in using nanomaterials for masks and gas emissions control devices.
Nanotechnology has allowed for significant progress in architectural, artistic, archaeological, or museum heritage conservation for repairing and preventing damages produced by deterioration agents (weathering, contaminants, or biological actions). This review analyzes the current treatments using nanomaterials, including consolidants, biocides, hydrophobic protectives, mechanical resistance improvers, flame-retardants, and multifunctional nanocomposites. Unfortunately, nanomaterials can affect human and animal health, altering the environment. Right now, it is a priority to stop to analyze its advantages and disadvantages. Therefore, the aims are to raise awareness about the nanotoxicity risks during handling and the subsequent environmental exposure to all those directly or indirectly involved in conservation processes. It reports the human-body interaction mechanisms and provides guidelines for preventing or controlling its toxicity, mentioning the current toxicity research of main compounds and emphasizing the need to provide more information about morphological, structural, and specific features that ultimately contribute to understanding their toxicity. It provides information about the current documents of international organizations (European Commission, NIOSH, OECD, Countries Normative) about worker protection, isolation, laboratory ventilation control, and debris management. Furthermore, it reports the qualitative risk assessment methods, management strategies, dose control, and focus/receptor relationship, besides the latest trends of using nanomaterials in masks and gas emissions control devices, discussing their risk of toxicity.

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