| Literature DB >> 24365940 |
Martin Rosenthal1, David Doblas2, Jaime J Hernandez2, Yaroslav I Odarchenko2, Manfred Burghammer3, Emanuela Di Cola3, Denis Spitzer4, A E Antipov1, L S Aldoshin1, Dimitri A Ivanov1.
Abstract
A microelectromechanical-systems-based calorimeter designed for use on a synchrotron nano-focused X-ray beamline is described. This instrument allows quantitative DC and AC calorimetric measurements over a broad range of heating/cooling rates (≤100000 K s(-1)) and temperature modulation frequencies (≤1 kHz). The calorimeter was used for high-resolution thermal imaging of nanogram-sized samples subjected to X-ray-induced heating. For a 46 ng indium particle, the measured temperature rise reaches ∼0.2 K, and is directly correlated to the X-ray absorption. Thermal imaging can be useful for studies of heterogeneous materials exhibiting physical and/or chemical transformations. Moreover, the technique can be extended to three-dimensional thermal nanotomography.Entities:
Keywords: indium; micro-focus X-ray diffraction; modulated differential scanning calorimetry; nanocalorimetry
Year: 2013 PMID: 24365940 DOI: 10.1107/S1600577513024892
Source DB: PubMed Journal: J Synchrotron Radiat ISSN: 0909-0495 Impact factor: 2.616