Overview of Methods for Analyzing Single Ultrafine Particles
Public Domain
-
2000/10/15
-
By Maynard AD
Details
-
Personal Author:
-
Description:Increasing awareness that structures and attributes on a nanometre scale within aerosol particles may play a significant role in determining their behaviour has highlighted the need for suitable single ultrafine particle analysis methods. By adopting technologies developed within complementary disciplines, together with the development of aerosol-specific methods, a basis for characterizing single sub-100 nm (ultrafine) particles and features in terms of size, morphology, topology, composition, structure and physicochemical properties is established. Size, morphology and surface properties are readily characterized in the scanning transmission electron microscope (STEM), while high-resolution transmission electron microscopy (HRTEM) allows structural information on particles and atomic clusters to sub-0.2 nm resolution. Electron energy loss spectroscopy (EELS) and X-ray emission in the STEM allow the chemical analysis of particles and particle regions down to nanometre diameters. Scanning probe microscopy offers the possibility of analysing nanometre-diameter particles under ambient conditions, thus getting away from some of the constraints imposed by electron microscopy. Imaging methods such as atomic force microscopy and near-field scanning optical microscopy (NSOM) offer novel and exciting possibilities for the characterization of specific aerosols. Developments in aerosol mass spectrometry are providing the means for chemically characterizing size-segregated ultrafine particles down to 10 nm in diameter on-line. By taking a multi-disciplinary approach, the compilation and development of complementary tools allowing both routine and in-depth analysis of individual ultrafine particles is possible. [Description provided by NIOSH]
-
Subjects:
-
Keywords:
-
ISSN:0962-8428
-
Document Type:
-
Genre:
-
Place as Subject:
-
CIO:
-
Division:
-
Topic:
-
Location:
-
Volume:358
-
Issue:1775
-
NIOSHTIC Number:nn:20020749
-
Citation:Philos Trans - R Soc Lond, Phys Sci Eng 2000 Oct; 358(1775):2593-2610
-
Contact Point Address:National Institute for Occupational Safety and Health, Division of Applied Research and Technology, 4676 Columbia Parkway, Cincinnati, OH 45226-1998
-
Federal Fiscal Year:2001
-
Peer Reviewed:True
-
Source Full Name:Philosophical Transactions - Royal Society of London. Physical Sciences and Engineering
-
Collection(s):
-
Main Document Checksum:urn:sha-512:139596f4f079356214f5a3f847a41951f8e3dd426c215dac61055d03c86efec144fe089bcbc6e669338943c726b7ae9002315da7a3822cdb54f279aec0a271a7
-
Download URL:
-
File Type:
ON THIS PAGE
CDC STACKS serves as an archival repository of CDC-published products including
scientific findings,
journal articles, guidelines, recommendations, or other public health information authored or
co-authored by CDC or funded partners.
As a repository, CDC STACKS retains documents in their original published format to ensure public access to scientific information.
As a repository, CDC STACKS retains documents in their original published format to ensure public access to scientific information.
You May Also Like