Charles L. Geraci researcher at NIOSH
Geraci, Charles L.
VIAF ID: 27152329262902672461 (Personal)
Permalink: http://viaf.org/viaf/27152329262902672461
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Works
Title | Sources |
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Air monitoring at the drum bulking process of a hazardous waste remedial action site | |
Are There Nano- and Microplastics in the Workplace? | |
Can control banding be useful for the safe handling of nanomaterials? A systematic review | |
A case study in partnering to develop a nanotechnology occupational safety program in a nanotechnology manufacturing environment | |
Challenges in assessing nanomaterial toxicology: a personal perspective | |
Critical research needs to address occupational safety and health of nanomaterial workers | |
Current intelligence bulletin 63: occupational exposure to titanium dioxide | |
Current strategies for engineering controls in nanomaterial production and downstream handling processes | |
A definition and categorization system for advanced materials: the foundation for risk-informed environmental health and safety testing | |
Development of an improved strategy for the derivation of skin notations | |
Development of risk-based nanomaterial groups for occupational exposure control | |
Envisioning the future of work to safeguard the safety, health, and well-being of the workforce: A perspective from the CDC's National Institute for Occupational Safety and Health | |
Evaluating nanoparticle emissions in the workplace: a description of the approach used by NIOSH and a summary of findings from 12 site visits | |
Evaluation of darkfield microscopy and hyperspectral imaging for analysis of airborne carbon nanotubes captured from occupational settings | |
Evaluation of the potential airborne release of carbon nanofibers during the preparation, grinding, and cutting of epoxy-based nanocomposite material | |
Field evaluations of sampling and analytical methods for formaldehyde | |
Focused actions to protect carbon nanotube workers | |
Fourier transform infra-red spectroscopy applied to hazardous waste: I - preliminary test of material analysis for improvement of personal protection strategies | |
From "just in time" to "just next door": 21st-centruy manufacturing challenges and opportunities for industrial hygienists | |
In vivo evaluation of the pulmonary toxicity of cellulose nanocrystals: a renewable and sustainable nanomaterial of the future | |
In Vivo Toxicity Assessment of Occupational Components of the Carbon Nanotube Life Cycle To Provide Context to Potential Health Effects | |
Key elements of a responsible development plan for nanomanufacturing | |
Lessons learned from the field, how to protect yourself from occupational exposure to engineered nanomaterials | |
Nano-metal oxides: exposure and engineering control assessment | |
Nanobiomonitoring and surveillance: opportunities to confirm the protection of nanomaterial workers | |
Nanocellulose - evaluation of the full spectrum of workplace health and safety | |
Nanotechnology: delivering on the promise, volume 2 | |
Nanotechnology overview: opportunities and challenges | |
Nanotoxicology: past achievements, future challenges, and potential solutions | |
Neurologic illness associated with occupational exposure to the solvent 1-bromopropane - New Jersey and Pennsylvania, 2007-2008 | |
A new American management systems standard in occupational safety and health - ANSI Z10 | |
New Findings on Lung Tumor Formation in Laboratory Mice Exposed to Multi-Walled Carbon Nanotubes | |
New horizons, lessons from the Nanotechnology Research Center: understanding and managing laboratory health and safety of a new or emerging technology | |
NIOSH Advanced Manufacturing Initiative | |
NIOSH field studies team assessment: worker exposure to aerosolized metal oxide nanoparticles in a semiconductor fabrication facility | |
The NIOSH Future of Work Initiative Research Agenda | |
The NIOSH nanotechnology research program: meeting the challenge for a safer workplace | |
The NIOSH nanotechnology research program: "Responsible development and commercialization." | |
Occupational exposure characterization during the manufacture of cellulose nanomaterials | |
Occupational exposure: current state, challenges, and future research | |
Occupational safety and health, green chemistry, and sustainability: a review of areas of convergence | |
Operating room pollution: governmental perspectives and guidelines | |
Options for occupational health surveillance of workers potentially exposed to engineered nanoparticles: state of the science | |
Overview of risk management for engineered nanomaterials | |
Perspectives on the design of safer nanomaterials and manufacturing processes | |
Pleuropulmonary disease in a polyacrylate facility | |
Polychlorinated biphenyl exposure in transformer maintenance operations | |
Potential occupational hazards of additive manufacturing | |
Preface | |
Prevention through design concepts for sustainable development of nanomaterials | |
Progress in understanding worker exposure and risk for cellulose nanomaterials | |
Promoting students' and young workers' health and safety by NIOSH/CDC and other U.S. organizations: available resources | |
Refinement of the Nanoparticle Emission Assessment Technique into the Nanomaterial Exposure Assessment Technique (NEAT 2.0) | |
Regulatory approaches to worker protection in nanotechnology industry in the USA and European union | |
Risk assessment and risk management of nanomaterials in the workplace: translating research to practice | |
Risk assessment approaches and research needs for nanomaterials: an examination of data and information from current studies | |
Safe approaches to nanotechnology: an information exchange with NIOSH | |
Soft law and nanotechnology: sources of guidance for risk management | |
Solid sorbent tube sampling and ion chromatographic analysis of formaldehyde | |
Taking stock of the occupational safety and health challenges of nanotechnology: 2000-2015 | |
Testing of hair dryers for asbestos emissions | |
U. S. federal perspective on critical research issues in nanoEHS | |
Understanding the Broad Class of Carbon Nanotubes and Nanofibers (CNT/F) Used or Produced in U.S. Facilities | |
Use of animal acute toxicity data to derive immediately dangerous to life or health concentrations: extrapolating to human effect thresholds |