Description
Handbook of Nanosafety
Measurement, Exposure and Toxicology
Coordinators: Vogel Ulla, Savolainen Kai, Wu Qinglan, van Tongeren Martie, Brouwer Derk, Berges Markus
Language: English
Subjects for Handbook of Nanosafety:
Keywords
benefits; concerns; exposure; mass production; nanotechnology; safety; exposure scenarios; manufactured nanomaterials; nanoparticles; occupational exposure; risk assessment; biokinetics; carcinogenicity; cardiovascular toxicity; engineered nanomaterials; genotoxicity; hazards; lungs; neurotoxicity; aerosol sources; aerosol dynamics modeling; background particles; deposition mechanisms; deposition velocity; dose assessment; General Dynamics Equation; inhalation; respiratory tract; sampling conventions; source identification; devices; measurement strategy; monitoring; NOAA; samplers; sampling; workplace; aerosol generation; calibration; data evaluation; manufacturer responsibility; quality control; round robin test; standard operation procedure; user responsibility; carbon nanotube; emission chamber; incineration; nanomaterial; nanoparticle; powder; release; semiconductor manufacture; shredding; benchmark levels; laboratories; REACH; recommend exposure limits; TSCA; enabling technologies; new-generation nanomaterials; new research priorities; safety assessment; safety-by-design
376 p. · 15x22.8 cm · Hardback
Description
/li>Contents
/li>Readership
/li>Biography
/li>Comment
/li>
Handbook of Nanosafety: Measurement, Exposure and Toxicology, written by leading international experts in nanosafety, provides a comprehensive understanding of engineered nanomaterials (ENM), current international nanosafety regulation, and how ENM can be safely handled in the workplace.
Increasingly, the importance of safety needs to be considered when promoting the use of novel technologies like ENM. With its use of case studies and exposure scenarios, Handbook of Nanosafety demonstrates techniques to assess exposure and risks and how these assessments can be applied to improve workers' safety. Topics covered include the effects of ENM on human health, characterization of ENM, aerosol dynamics and measurement, exposure and risk assessment, and safe handling of ENM.
Based on outcomes from the NANODEVICE initiative, this is an essential resource for those who need to apply current nanotoxicological thinking in the workplace and anyone who advises on nanosafety, such as professionals in toxicology, occupational safety and risk assessment.
2. Exposure Scenarios
3. Nanomaterials and Human Health
4. From Source to Dose: Emission, Transport, Aerosol dynamics and Dose Assessment for Workplace Aerosol Exposure
5. Quality control of measurement devices
6. Exposure Assessment Strategies
7. Risk Assessment and Risk Management
8. Examples and Case Studies
9. Future Outlook
Toxicologists and scientists who work with ENM and aerosols. Occupational Toxicologists. Regulatory Toxicologists. Risk Assessors. Nanosafety managers. Industrial Hygienists
- Multi-authored book, written by leading researchers in the field of nanotoxicology and nanosafety
- Features state-of-the-art physical and chemical characterization of engineered nanomaterials (ENM)
- Develops strategies for exposure assessment, risk assessment and risk management
- Includes practical case studies and exposure scenarios to demonstrate how you can safely use ENM in the workplace
