![]() ![]() The editors accept original contributions in English language.Neža Božič, School of Advanced Social Studies, Slovenia Zenonas Norkus, Vilnius University, Lithuania William O'Gorman, Waterford Institute of Technology, Ireland Tea Golob, School of Advanced Social Studies, Slovenia Tatjana Volkova, School of Business and Finance, Latvia Sari Hanafi, American University of Beirut, Lebanon Peter Verovšek, University of Sheffield, UK Paul Tabar, Lebanese American University, Lebanon Nikolai Genov, Freie Universitat Berlin, Germany Marija Babović, University of Belgrade, Serbia Lyudmila Dikova, Higher School of Security and Economics, Bulgaria Lukasz Lewkowitz, Maria Curie-Skłodowska University, Poland Larisa Titarenko, Belarussian State University, Belarus Ladislav Cabada, Metropolitan University Prague, Czech Republic Jose Real Dato, University of Almeria), Spain Janne Nikkinen, University of Helsinki, Finland Henrik Halkier, Aalborg University, Denmark Gabriel Badescu, Babes-Bolyai University, Romania Tamara Besednjak Valič, School of Advanced Social Studies, SloveniaĪgnieszka Kolasa-Nowak, Marie Curie-Sklodowska University in Lublin, PolandĪna Bračič, Michigan State University, USAīaoyan Cheng, University of Hawaii at Manoa, USAĬlaudia Kozman, Lebanese American University, LebanonĮlena Danilova, Russian Academy of Sciences, Russiaįilomin Gutierrez, University of Philippines Diliman, Philippines Urška Fric, Faculty of Information Studies, Slovenia Petra Kleindienst, School of Advanced Social Studies, Slovenia Similarity Check is a medium that allows for comprehensive manuscripts screening, aimed to eliminate plagiarism and provide a high standard and quality peer-review process.īorut Rončević, School of Advanced Social Studies, Slovenia The editorial board is participating in a growing community of Similarity Check System's users in order to ensure that the content published is original and trustworthy. Sciendo archives the contents of this journal in Portico - digital long-term preservation service of scholarly books, journals and collections. through a guest edition on set thematic issues). RSC is not thematically or geographically limited, however, it encourages thematically rounded contributions (eg. computer sciences and information technology,.In doing so, RSC aims to become a vivid platform discussing up-to-date topics dealing with the most prominent themes within the social sciences.Įngaging in discussions on the topic of social change, RSC aims to better understand the phenomenon through varied perspectives, including, but not being limited to: RSC welcomes but is not limited to, the contributions of young and prospective academics both at the start or on the advancement of their careers. RSC publishes original research articles with a clear contribution to the social sciences and here discussed through empirical or theoretical argumentations while the editors especially encourage new methodological approaches as well as innovative theoretical considerations. This work underlines the importance of selective halogenation of central units and end groups in manipulating molecular packing and boosting the photovoltaic performance of OSCs.Research in Social Change (RSC) is an interdisciplinary journal aiming to engage a wider academic audience by questioning and exploring the nature and impacts of changes in social institutions, changes in social behaviour and changes in social relations as they occur on a daily basis. As a result, OSCs based on PM6:Qx- p-4Cl exhibit a high PCE of 18.06%, which could be further improved to 18.78% by interface optimization. Qx- p-4Cl with the para-fluorinated central unit and chlorinated end groups exhibits red-shifted absorption, decreased energy loss, ordered molecular packing, and a favorable blend morphology, which are conducive to charge generation and transport. ![]() These isomeric fluorinated central units and different end groups result in altered local dipole moments, thus affecting molecular stacking modes and photoelectronic properties of NFAs. Herein, based on recently developed quinoxaline (Qx)-series acceptors, a series of NFAs, Qx- o-4F, Qx- m-4F, Qx- p-4F, and Qx- p-4Cl, were developed by changing the substitution positions of fluorine atoms on the central unit and the type of terminal halogen atoms. Although end-group halogenation has achieved great success, central-unit halogenation has not been systematically studied due to the lack of substitution points in traditional Y-series acceptors. Halogenation of nonfullerene acceptors (NFAs) is a general and effective strategy to improve the power conversion efficiencies (PCEs) of organic solar cells (OSCs). ![]()
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