Abstract
Building integrated photovoltaics (BIPV) are becoming more common every day. They are used everywhere, from the cabin in the mountains to the modern apartment building, and with more common use, strengths and weaknesses begin to reveal themselves more and more. In the regions of the world experiencing a colder climate, ice and snow coverage presents a challenge to productivity, BIPV resilience and longevity. Mechanically clearing snow and ice wears down the installations more quickly and may present a hazard to the people carrying out the clearing. Several research studies have been presented regarding the passive repulsion of ice and frost, while the repulsion of snow remains largely unexplored. This study aims to concisely present a review of what has been published in the field regarding snow repulsion and illuminate the research gaps and thus pave the way for future research. The snow aspect is illuminated by employing strategies previously applied to icephobicity research. A special emphasis is put on the comparison between microstructured, nanostructured and hierarchically structured surfaces as these constitute the basis of most icephobic (pagophobic) strategies.