Assessment of methods of sampling and characterizing engineered nanomaterials in the air and on surfaces in the workplace Pour voir la vidéo, veuillez activer Javascript et considérez mettre à jour votre navigateur à une version supportant le HTML5. To view this video please enable JavaScript, and consider upgrading to a web browser that supports HTML5 video. Maximilien Debia, professor at Université de Montréal, explains the complex methodological approach for detailed qualitative and quantitative characterization of workplace exposure to engineered nanomaterials (ENM). Related Documents View slideshow From the same project Scientific Reports An Assessment of Methods of Sampling and Characterizing Engineered Nanomaterials in the Air and on Surfaces in the Workplace R-952, R-1009 Scientific Publications Évaluation de méthodes de prélèvement et de caractérisation de nanomatériaux manufacturés dans l'air et sur des surfaces des milieux de travailDebia M.Source : (2018). Communication présentée à Rendez-vous de la science de l'IRSST, Montréal, QC. Tiré de https://www.irsst.qc.ca/publications-et-outils/video/i/100395/n/methodes-prelevement-nanomateriaux-manufactures-dans-air From the same series: Rendez-vous de la science (2018) Impact of data maturity on OHS indicators Injuries with Permanent Physical or Mental Impairment (PPMI) – Risk Analysis in Québec Measuring the efficacy of protective gloves against nanoparticles in conditions simulating their use in the workplace Effect of cutting fluids on the cut and puncture resistance of protective gloves Development of a confined space risk analysis and work categorization tool Reproduction of industrial sound environments for use in audibility studies on alarms and other sound signals: proof of concept ProtecPo: Software for pre-selection of protective materials Les conditions pour une intégration sécuritaire au métier - Un regard sur le secteur minier québécois Evaluation of the CIP10 sampler containing the reagent 1,8-diaminonaphthalene (DAN) for isocyanates evaluation in the workplaces Application of preventive practices by nurses: the innovative perspective of absorption capacity L’influence des rythmes de travail sur l’appropriation et l’application des principes de déplacement sécuritaire des bénéficiaires par les préposés dans les centres d’hébergement du Québec Acoustic performance evaluation of back-up alarms tonal and broadband in open work environments to achieve optimal use Collaborative robotics: feedback from workers, users and integrators in Québec Follow-up, evaluation and review of a lockout implementation approach for municipal mobile equipment Evaluation of the mycological biomass on the surfaces of air-handling networks of ventilation systems Development of a Next-Generation Sequencing Approach to the Study of Fungal Diversity in Bioaerosols Evaluation of bioaerosols and gaseous compounds in agri-food and residential organic waste composting Exploratory evaluation of occupational exposure to chemicals and organic contaminants in biomethanation plants for putrescible organic matter Development of vibration and acoustic diagnostic methods for portable pneumatic nailers Innovative Method for Characterizing Acoustic Materials in the Laboratory and Study of Its Applicability in the Field Related Publications Characterization of Unintentionally Released Nanometric Particles in Various Workplaces(Publication) Additional Information Collection: Video reports and conferences Category: Conference On screen: Maximilien Debia - Professor - Université de Montréal Research Project: 2013-0059 Research Field: Chemical and Biological Hazard Prevention Publication no.: CF-269 Language: French Online since: June 18, 2018 Recorded date: May 29, 2018 Format: Video Duration: 27:05