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News Release from: Anasys Instruments | Subject: Nano-TA
Edited by the Laboratorytalk Editorial
Team on 23 April 2008
Nanobiocomposites' structure-property
relationship
The latest publication to apply nano-TA has just been released by a research group from Michigan State University to study the relationship between the structure and properties of nanobiocomposites
For many years, researchers in the polymer technology have used thermal analysis measurements to characterise bulk material properties More recently, it has been shown that making localised thermal measurements on much smaller size scales reveals a lot more about how materials will behave in real-world use
This article was originally published on Laboratorytalk on 1 Nov 2006 at 8.00am (UK)
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Heated tip-AFM imaging for Nano-TA systems
With ability to control the heat at the tip, users of the NanoTA accessory can image surfaces to study the change as the surface undergoes physical change: glass transition, re-crystallisation or melt
Making localised thermal analysis truly local
Vesta is an easy-to-use instrument designed with an integrated optical microscope for the operator to identify features of interest down to 1.5 micron in size for truly localised thermal analysis
Dana Miloaga, a research assistant in MSU's composite materials and structures centre and her colleagues have reported how nano-TA was able to detect polymer re-organization phenomena on sample surfaces which was not evident when using the more traditional technique of differential scanning calorimetry, DSC.
This is likely to be directly related to the ability to heat the surface at rates of 600C/min using nano-TA while DSC studies were made at 3C/min.
The most significant observation in the study of various polymers showed bimodal crystallisation behaviour in poly (L-lactic acid), PLA, where nano-TA was able to repeatedly show the cold crystallisation process.
Nano-TA was first available in 2006 enabling users of scanning probe microscopes (SPMs) to combine visualisation with localized thermal analysis studies.
With specially fabricated silicon probes, the system is able to rapidly heat very small areas of the sample surface and monitor physical changes by the deflection of the probe as a function of change in temperature.
This produces the accurate measurement of thermal events such as the glass transition or the melting point of materials at a spatial resolution of less than 100nm.
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