Hierarchical structures are comprised of nanoscale “building blocks”—varying in shape and
size—assembled to produce micro/meso scale structures, which possess morphologies that …

The current work involves the fabrication of a MXene-Polythiophene (Ti3C2Tx-PTh)
composite via interfacial polymerization, alongside its deployment as a counter electrode …

This research focuses on the first demonstration of NO2Lw (2-hydroxy-3-nitronaphthalene-1,
4-dione) as a photosensitizer and TiO2, ZnO, and Nb2O5 as photoanode materials for dye …

Plasmonic solar cells are desirable because of their high efficiency and cost-effectiveness
compared to second-generation solar cells. In this research, the photoanode of cadmium …

Considering the widespread use of windows in modern urban landscapes, converting these
substrates into photovoltaic devices would remarkably impact modern energy generation. A …

Atomic layer deposited (ALD) TiO2 layers are implanted with N, O, and Ar ions to reduce the
bandgap, thereby increasing its absorbance in the visible region. The implantation is …

Do** of noble metals in TiO 2 has been known to be an excellent way to enhance light
absorption and reduce charge recombinations in sensitized photoanodes based devices. In …

A key issue in realizing the cost-effective large-scale industrial production of third generation
dye sensitized solar cells (DSSCs) is the development of competent substitutes for platinum …

For the first time, it has been demonstrated that TiO 2 optical properties can be improved by
do** Fe using flash sintering. Hyperdoped TiO 2 (doped with 10 at% Fe) fabricated using …

Localized surface plasmon resonance (LSPR) has been applied in photovoltaic devices to
improve their photoelectric conversion efficiency. In this study, the mechanism of LSPR in …