{"id":2342,"date":"2020-03-24T08:33:03","date_gmt":"2020-03-24T07:33:03","guid":{"rendered":"https:\/\/www.sonnenseite.com\/science\/on-the-trail-of-organic-solar-cellsa-efficiency.html"},"modified":"2020-03-24T08:33:03","modified_gmt":"2020-03-24T07:33:03","slug":"on-the-trail-of-organic-solar-cellsa-efficiency","status":"publish","type":"post","link":"https:\/\/www.sonnenseite.com\/en\/science\/on-the-trail-of-organic-solar-cellsa-efficiency\/","title":{"rendered":"On the trail of organic solar cells\u2019 efficiency"},"content":{"rendered":"<p>On the trail of organic solar cells&rsquo; efficiency: Molecular vibrations reduce the maximum achievable photovoltage in organic solar cells.<\/p>\n<p> <!--more--> <\/p>\n<p>Scientists at TU Dresden and Hasselt University in Belgium investigated  the physical causes that limit the efficiency of novel solar cells based  on organic molecular materials. Currently, the voltage of such cells is  still too low &#8211; one reason for their still relatively low efficiencies.  In their study, by investigating the vibrations of the molecules in the  thin films, the scientists were able to show that very fundamental  quantum effects, so-called zero point vibrations, can make a significant  contribution to voltage losses. The study has now been published in the  journal Nature Communications.<\/p>\n<p>Solar cells are a crystallization point of high hopes for the  necessary transformation of the global energy production. Organic  photovoltaics (OPV), which is based on organic, i.e. carbon-based  materials, could be ideally suited to become an important pillar in the  energy mix of the &#8220;renewables&#8221; because they have a better ecological  balance sheet compared to conventional silicon-based modules and only a  small amount of material is required to produce the thin films. However,  a further increase in efficiency is necessary. It is based on various  characteristic values such as the open-circuit voltage, whose too low  values are currently a main reason for still quite moderate efficiencies  of OPV.<\/p>\n<p>The study investigated physical reasons for this &#8211; including the  vibrations of the molecules in the thin films. It was shown that the  so-called zero point vibrations &#8211; an effect of quantum physics that  characterizes the motion at absolute temperature zero &#8211; can have a  significant influence on voltage losses. A direct relationship between  molecular properties and macroscopic device properties was demonstrated.  The results provide important information for the further development  and improvement of novel organic materials.<\/p>\n<p>The low energy edge of optical absorption spectra is crucial for the  performance of solar cells, but in the case of organic solar cells with  many influencing factors it is not yet well understood. In the present  study, the microscopic origin of absorption bands in molecular blend  systems and their role in organic solar cells was investigated. The  focus was on the temperature dependence of the absorption  characteristics, which was investigated theoretically under  consideration of molecular vibrations. The simulations matched very well  with the experimentally measured absorption spectra which leads to a  number of important findings.<\/p>\n<p>The authors discovered that the zero-point vibrations, mediated by  electron-phonon interaction, cause a considerable absorption bandwidth.  This leads to reemission of a part of the energy which is unused and  hence reduces the open-circuit voltage. These voltage losses can now be  predicted from electronic and vibronic molecular parameters. What is  unusual is that this effect is strong even at room temperature and can  significantly reduce the efficiency of the organic solar cell. Which  strategies to reduce these vibration-induced voltage losses could be  applied is being discussed by the authors for a larger number of systems  and different heterojunction geometries.&nbsp;<\/p>\n<ul>\n<li>Paper title: <strong>Molecular vibrations reduce the maximum achievable photovoltage in organic solar cells |&nbsp;<\/strong>DOI: <a href=\"https:\/\/doi.org\/10.1038\/s41467-020-15215-x\" target=\"_blank\" rel=\"noopener noreferrer\">10.1038\/s41467-020-15215-x<\/a>&nbsp;|&nbsp;Authors:  Michel Panhans, Sebastian Hutsch, Johannes Benduhn, Karl Sebastian  Schellhammer, Vasileios C. Nikolis, Tim Vangerven, Koen Vandewal, Frank  Ortmann<\/li>\n<\/ul>\n<h5 class=\"green\">Source<\/h5>\n<p><a href=\"https:\/\/cfaed.tu-dresden.de\/press-releases-201\/on-the-trail-of-organic-solar-cells-efficiency-molecular-vibrations-reduce-the-maximum-achievable-photovoltage-in-organic-solar-\" target=\"_blank\" rel=\"noopener noreferrer\">TU Dresden 2020<\/a><\/p>\n<div>\n<div class=\"gtx-trans-icon\"><\/div>\n<\/div>\n<div class=\"shariff shariff-align-flex-start shariff-widget-align-flex-start\"><div class=\"ShariffHeadline\">Diese Meldung teilen<\/div><ul class=\"shariff-buttons theme-round orientation-horizontal buttonsize-medium\"><li class=\"shariff-button facebook shariff-nocustomcolor\" style=\"background-color:#4273c8;border-radius:1%\"><a href=\"https:\/\/www.facebook.com\/sharer\/sharer.php?u=https%3A%2F%2Fwww.sonnenseite.com%2Fen%2Fscience%2Fon-the-trail-of-organic-solar-cellsa-efficiency%2F\" title=\"Bei Facebook teilen\" aria-label=\"Bei Facebook teilen\" role=\"button\" rel=\"nofollow\" class=\"shariff-link\" style=\";border-radius:1%; 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