Publikationen
Die ProUmid Feuchtegeneratoren kommen weltweit in hunderten von analytischen Anwendungen zum Einsatz um repräsentative, verlässliche und wiederholbare Messergebnisse in einer Umgebung geregelter Luftfeuchte zu ermöglichen. Hier finden Sie eine Auswahl von Literaturstellen in denen die MHGs zusammen mit analytischen Geräten und Messsystemen für Messungen bei präzise geregelter Luftfeuchte verwendet wurden.
TGA/DSC-Feuchtegenerator Kombinationen
Mengchun Wu, et al. „Metal- and halide-free, solid-state polymeric water vapor sorbents for efficient water-sorption-driven cooling and atmospheric water harvesting.“ Material Horizons 8, 1518-1527, 2021. DOI
Jana Stengler „Thermodynamic and kinetic investigations of the SrBr2 hydration and dehydration reactions for thermochemical energy storage and heat transformation.“ Applied Energy 277, 115432, 2020. DOI
M Gaeini, et al. „Characterization of potassium carbonate salt hydrate for thermochemical energy storage in buildings.“ Energy and Buildings 196, 178-193, 2019. DOI
JX Xu „High energy-density multi-form thermochemical energy storage based on multi-step sorption processes.“ Energy 185, 1131-1142, 2019. DOI
Paul A Kallenberger and Michael Fröba „Water harvesting from air with a hygroscopic salt in a hydrogel–derived matrix.“ Communications Chemistry 1, 2018. DOI
D Lie, et al. „Interactions between a phenolic antioxidant, moisture, peroxide and crosslinking by-products with metal oxide nanoparticles in branched polyethylene.“ Polymer Degradation and Stability 125, 21-32, 2016DOI
Anupam Khutia, et al. „Water sorption cycle measurements on functionalized MIL-101Cr for heat transformation application.“ Chemistry of Materials 25, 790-798, 2013). DOI
Dynamisch Mechanische Analyse
Hui Peng, et al. „Creep properties of compression wood fibers.“ Wood Science and Technology 54, 1497-1510, 2020. DOI
XRPD-Feuchtegenerator Kopplung
Laura Ritterbach and Petra Becker „Temperature and humidity dependent formation of CaSO4·xH2O (x = 0…2) phases.“ Global and Planetary Change 187, 103132, 2020. DOI
Murray B McBride „Oxalate-enhanced solubility of lead (Pb) in the presence of phosphate: pH control on mineral precipitation.“ Environmental Science: Processes & Impacts 21, 738-747, 2019. DOI
Caitlin MA McQueen, et al. „Temperature- and humidity-induced changes in alum-treated wood: a qualitative X-ray diffraction study.“ Heritage Science 6, 2018. DOI
Sarah Zellnitz, et al. „Crystallization speed of salbutamol as a function of relative humidity and temperature.“ International Journal of Pharmaceutics 489, 170-176, 2015. DOI
Dhara Raijada, et al. „Exploring the Solid-Form Landscape of Pharmaceutical Hydrates: Transformation Pathways of the Sodium Naproxen Anhydrate-Hydrate System.“ Pharmaceutical research 30, 280-289, 2013. DOI
Raman Mikroskopie
PAJ Donkers, et al. „Na2SO4·10H2O dehydration in view of thermal storage.“ Chemical Engineering Science 134, 360-366, 2015. DOI
Kirsten Linnow, et al. „Experimental Studies of the Mechanism and Kinetics of Hydration Reactions.“ Energy Procedia 48, 394-404, 2014. DOI
FTIR Spektroskopie
Lennart Salmén, et al. „Moisture induced straining of the cellulosic microfibril.“ Cellulose 28 , 3347–3357, 2021. DOI
Yadong Zhao, et al. „Tunicate cellulose nanocrystals: Preparation, neat films and nanocomposite films with glucomannans.“ Carbohydrate Polymers 117, 286-296, 2015. DOI
Jasna S Stevanic, et al. „Arabinoxylan/nanofibrillated cellulose composite films.“ Journal of Materials Science 47, 6724-6732, 2012. DOI
Rasterkraftmikroskopie
Qi Chen, et al. „Recovery dynamics of acrylic coating surfaces under elevated relative humidity monitored by atomic force microscopy“ Progress in Organic Coatings 146, 105712, 2020. DOI