In this episode of SciBud, we embark on an exciting journey into the world of molecular electronics, uncovering a groundbreaking study that introduces an innovative molecular switch known as FNAAP—a fluorinated tripodal derivative of arylazopyrazole. With an extraordinary half-life exceeding a thousand days, this molecular switch shows remarkable stability and potential to revolutionize data storage and processing, particularly in quantum computing. Learn how researchers used scanning tunneling microscopy to manipulate the molecule's multiple states, achieving eight distinct configurations and a dramatic increase in current flow during state transitions. While the study presents promising advancements, we also discuss critical perspectives on data transparency and reproducibility within scientific research. Join us as we explore how these tiny molecules could lead to significant technological breakthroughs, making the complex field of molecular electronics accessible and engaging for all listeners! Link to episode page with article citation: www.scibud.media/podcast/season/2025/episode/100

Ver todos los episodios