Tunable daytime passive radiative cooling based on a broadband angle selective low-pass filter

Passive daytime cooling could contribute to the reduction of our global energy consumption. It is capable of cooling materials down to below ambient temperatures without the necessity of any additional input energy. Yet, current devices and concepts all lack the possibility to switch the cooling properties on and off. Here, we introduce dynamic control for passive radiative cooling during daytime. Using an angle-selective solar filter on top of a nocturnal passive radiator allows tuning the surface temperature of the latter in a wide range by just tilting the filter from normal incidence up to around 23°. This angle-selective filter is based on optically engineered, one-dimensional photonic crystal structures. We use numerical simulations to investigate the feasibility of a switchable low-pass filter/emitter device

Eine Einstiegshilfe in die Nachhaltigkeitsberichterstattung

Das Bewusstsein für nachhaltige Unternehmensführung in kleinen und mittelständischen Unternehmen (KMU) wächst. Doch die Instrumente zur Bestimmung der unternehmerischen Nachhaltigkeit sind häufig nicht auf die Anforderungen von KMU angepasst. Die neue Anwendungshilfe des Deutschen Nachhaltigkeitskodex kann hier einen Beitrag leisten

Photoacoustic thermal characterization of low thermal diffusivity thin films

The photoacoustic measurement technique is a powerful yet underrepresented method to characterize the thermal transport properties of thin films. For the case of isotropic low thermal diffusivity samples, such as glasses or polymers, we demonstrate a general approach to extract the thermal conductivity with a high degree of significance. We discuss in particular the influence of thermal effusivity, thermal diffusivity, and sample layer thickness on the significance and accuracy of this measurement technique. These fundamental thermal properties guide sample and substrate selection to allow for a feasible thermal transport characterization. Furthermore, our data evaluation allows us to directly extract the thermal conductivity from this transient technique, without separate determination of the volumetric heat capacity, when appropriate boundary conditions are fulfilled. Using silica, poly(methyl methacrylate) (PMMA) thin films, and various substrates (quartz, steel, and silicon), we verify the quantitative correctness of our analytical approach