Global and local aspects of the surface potential landscape for energy level alignment at organic-ZnO interfaces
Hybrid systems of organic and inorganic semiconductors are a promising route for the development of novel opto-electronic and light-harvesting devices. A key ingredient for achieving a superior functionality by means of a hybrid system is the right relative position of energy levels at the interfaces of the two material classes. In this Perspective, we address the sensitivity of the potential energy landscape at various ZnO surfaces, a key ingredient for interfacial energy level alignment, by combining one- and two-photon photoelectron spectroscopy with density-functional theory calculations (DFT). We show that even very large work function changes (>2.5 eV) do not necessarily have to be accompanied by surface band bending in ZnO. Band bending – if it does occur – may be localized to few Å or extend over hundreds of nanometers with very different results for the surface work function and energy level alignment. Managing the delicate balance of different interface manipulation mechanisms in organic–inorganic hybrid systems will be a major challenge towards future applications. Read more .
Read more news
Publishing Research Data Alongside Research Articles
Data availability statements are increasingly required by scientific journals. They include information on what data are available, where they can be found, and any applicable access terms
Who publishes our open access publications?
Researchers at Aalto and Helsinki Universities favor open access journals with author fees published by large publishers. Popular journals without author fees are often published by universities or societies.
Learning, growing, and exploring: a path through doctoral studies at Aalto
Hamidreza Daghigh Shirazi reflects on his doctoral journey at Aalto University