29538-U
Empty Tube for Thermal Desorption
glass, O.D. x I.D. x L 1/4 in. × 3 1/2 in., fritted, pkg of 10 ea
Synonym(s):
empty glass Thermal Desorption Tube (fritted)
About This Item
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product name
Empty Tube for Thermal Desorption, glass TD tube, fritted, O.D. × L 1/4 in. × 3 1/2 in., pkg of 10 ea
material
glass TD tube
Quality Level
feature
fritted
packaging
pkg of 10 ea
greener alternative product characteristics
Waste Prevention
Safer Solvents and Auxiliaries
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sustainability
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technique(s)
active air sampling: suitable
O.D. × L
1/4 in. × 3 1/2 in.
application(s)
air monitoring
environmental
industrial hygiene
compatibility
for use with PerkinElmer, Markes, DANI, OI Analytical, and Shimadzu Instruments
greener alternative category
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General description
Application
- Impact of thermal desorption tubes on the variability of exhaled breath data.: This study investigates the impact of using thermal desorption tubes on the variability of data collected from exhaled breath analysis, highlighting the importance of consistent sampling methods for accurate analytical results (Jung et al., 2023).
- Concentrically packed high flow air sampler for parts-per-trillion volatile and semi-volatile organic compounds.: The research introduces a high-flow air sampler designed to detect volatile and semi-volatile organic compounds at extremely low concentrations, demonstrating the efficiency of thermal desorption in air quality monitoring (Xie et al., 2017).
- Performance test of a sorbent tube sampler with respect to analyte loss in collecting biogenic volatile organic compounds.: This paper evaluates the performance of sorbent tube samplers, focusing on analyte loss and its implications for the accurate measurement of biogenic volatile organic compounds (Ullah and Kim, 2015).
- Extent of sample loss on the sampling device and the resulting experimental biases when collecting volatile fatty acids (VFAs) in air using sorbent tubes.: The study examines sample loss and experimental biases associated with using sorbent tubes for collecting VFAs in air, emphasizing the need for optimized sampling protocols (Kim and Kim, 2013).
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