Energy band alignment of TiO 2 , SnO 2 and BI54, BI55 dyes

Low-temperature processed SnO2 compact layer by incorporating TiO2 layer toward efficient planar heterojunction perovskite solar cells - ScienceDirect

Comparison between DSSC sensitized with BI55 (orange line and markers)

Compositionally graded SnO2/TiO2 bi-layered compounds with dramatically enhanced charge transport efficiency for self-driven water purification applications - ScienceDirect

Riccardo Milan's research works Università degli Studi di Brescia, Brescia (UNIBS) and other places

Energy band diagram and Photocatalytic degradation mechanism

Energy Level Alignment at Titanium Oxide–Dye Interfaces: Implications for Electron Injection and Light Harvesting

a) Calculation of the active area per mm 2 featured by the SnO 2

Energy Level Alignment at Titanium Oxide–Dye Interfaces: Implications for Electron Injection and Light Harvesting

Dye-sensitized solar cells based on a push-pull zinc phthalocyanine bearing diphenylamine donor groups: computational predictions face experimental reality

Orlandi SIMONETTA, Researcher, PhD, Italian National Research Council, Rome, CNR, SCITEC

Energy band diagram of SnO 2 and Al 2 O 3 (a), TiO 2 (b) with respect

Zinc phthalocyanines as light harvesters for SnO2-based solar cells: a case study