Chemical Management: Storage and Inventory in Research Laboratories

Kuzmina, Olga; Hartrick, Eddie; Marchant, A.; Edwards, E. Anne; Brandt, Jochen R.; Hoyle, Stefan

doi:10.1021/acs.chas.1c00086

Cited by 7 publications

(7 citation statements)

References 12 publications

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“…These shared practices, while differing in specifics, form the bedrock of a safety-first culture in both academic and industrial laboratories. 109,139,227 The differences between academic and industrial laboratories, as detailed in Table 12, shed light on the tailored approaches each type of lab adopts to address its unique safety challenges. The varied and exploratory nature of work in academic laboratories necessitates a more adaptable and project-specific approach to safety, contrasting with the standardized, processdriven protocols in industrial laboratories.…”

Section: Comparative Analysis Of Safety Principles In Academic and In...mentioning

confidence: 99%

“…By respecting established procedures for the storage and management of chemicals, laboratories can effectively mitigate the inherent risks associated with hazardous substances. This will enhance laboratory safety and ensure the well-being of laboratory staff, the local community, and the environment. − Consistent training initiatives and awareness campaigns can serve to reinforce these safety measures and promote safety-oriented ethics within the laboratory, wherein laboratory personnel actively participate to uphold a secure working environment. − …”

Section: Chemical Storage and Handlingmentioning

confidence: 99%

“…Furthermore, the implementation of risk assessment protocols, emergency procedures, and the use of personal protective equipment (PPE) are indicative of a proactive approach to safety management. These shared practices, while differing in specifics, form the bedrock of a safety-first culture in both academic and industrial laboratories. ,, …”

Section: Comparative Analysis Of Safety Principles In Academic and In...mentioning

confidence: 99%

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Mitigation of Potential Risks in Chemical Laboratories: A Focused Review

Abedsoltan,

Shiflett

2024

ACS Chem. Health Saf.

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This review paper presents an analysis of safety practices in chemical laboratories. It encompasses a systematic exploration of various facets including risk assessment, hazard mitigation, and the implementation of safety protocols. Emphasis is placed on the critical role of continuous education and training, advocating a proactive safety culture, and adapting to technological advancements. Additionally, the paper underscores the importance of adhering to regulatory standards, promoting exceeding baseline compliance toward establishing best practices in laboratory safety. This comprehensive approach highlights the dynamic, multifaceted nature of laboratory safety, positioning it as a fundamental aspect of scientific research.

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Section: Comparative Analysis Of Safety Principles In Academic and In...mentioning

confidence: 99%

Section: Chemical Storage and Handlingmentioning

confidence: 99%

Section: Comparative Analysis Of Safety Principles In Academic and In...mentioning

confidence: 99%

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Mitigation of Potential Risks in Chemical Laboratories: A Focused Review

Abedsoltan,

Shiflett

2024

ACS Chem. Health Saf.

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“…Lastly, inventory accountability and management are difficult to maintain, as shown in a recent study of chemical storage at research laboratories . For hazardous material users, maintaining accurate inventory counts, SDS-inventory associations, proper material segregation, and usage logs can prove an arduous task provided that for many users these are side compliance tasks to their primary duties; often what the materials are being used for.…”

Section: Introductionmentioning

confidence: 99%

“…Lastly, inventory accountability and management are difficult to maintain, as shown in a recent study of chemical storage at research laboratories. 16 For hazardous material users, maintaining accurate inventory counts, SDS-inventory associations, proper material segregation, and usage logs can prove an arduous task provided that for many users these are side compliance tasks to their primary duties; often what the materials are being used for. While many of the proposed applications in this paper are not inherently novel, the applications of these in industry, individually and as part of a more robust, integrated system, remain uncommon and their use could help improve or resolve many of the more common EHS violations.…”

Section: Introductionmentioning

confidence: 99%

Mitigation of Chemical Reporting Liabilities through Systematic Modernization of Chemical Hazard and Safety Data Management Systems

2023

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In the United States alone, approximately 2 billion tons of hazardous material products are manufactured each year for both household and industrial applications and contribute to thousands of worker chemical exposures with as many as 50,000 deaths from prolonged exposure each year. The potential hazards and impacts of these chemicals for human health and the environment are primarily communicated to the public through Safety Data Sheets (SDSs) from the chemical vendors or distributors. These documents provide a standardized approach for how and what information is provided to product users to assist them with assessment of precautionary measures, hazard mitigation, emergency response or cleanup procedures, and environmental, health, and safety (EHS) management. Despite the criticality for hazard communication (HAZCOM) precision, legacy SDS management and industry business practices leave the overall ability to effectively manage chemicals vulnerable to significant liability through a lack of full constituent disclosure, injection of data quality errors through various handling of SDS information and manual data entry, and the lack of direct SDS-to-product association. Chemical spills and accidents often require individuals to look for the appropriate SDS on a local computer, online, or in workplace binders; each of which results in information returned that is often found to be outdated or incorrect. Workplace HAZCOM violations remain among the top citations during EHS inspections by regulatory agencies. More important, however, is the lack of precise association of SDS to hazardous products that can occur through chemical management lifecycles. Incorrect SDSs can yield significant liability, as subsequent environmental and occupational health analyses and reporting are based upon incorrect and, in some cases, entirely different chemical formulations. This paper focuses on the need for a paradigm shift in our chemical management systems and how a standardized management system and various recent technological advances can be incorporated into Environmental Management System operations to reduce or eliminate these liabilities. The following advancements can be used to enhance the lifecycle management of workplace chemicals, reduce potential exposure and spill risks, reduce workplace hazards, and increase the efficiency and accuracy of environmental reporting through a more streamlined systems approach. EHS system enhancement applications discussed in this paper include the following: the need for a centralized universal SDS repository with full chemical disclosure of all product constituents and a nationally adopted machine language SDS standard. The use of artificial intelligence/machine learning in environmental systems and how they can be used as a medium to transition toward an automated standard by reverse-engineering and partitioning SDS components into machine-encoded text that can be validated and uploaded to a centralized repository. Algorithmic and meta-algorithmic approaches to SDS requirement and data...

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Base activated hydrothermal carbonisation of Coconut husk and Wheat straw for the adsorption of Tetracycline and Trimethoprim: A Comparative approach

Mangla,

Ikram

2023

Biomass Conv. Bioref.

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Chemical Management: Storage and Inventory in Research Laboratories

Cited by 7 publications

References 12 publications

Mitigation of Potential Risks in Chemical Laboratories: A Focused Review

Mitigation of Potential Risks in Chemical Laboratories: A Focused Review

Mitigation of Chemical Reporting Liabilities through Systematic Modernization of Chemical Hazard and Safety Data Management Systems

Base activated hydrothermal carbonisation of Coconut husk and Wheat straw for the adsorption of Tetracycline and Trimethoprim: A Comparative approach

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