The wide bandgap Sb2S3 is considered to be one of the most promising absorber layers in
single‐junction solar cells and a suitable top‐cell candidate for multi‐junction (tandem) solar …

Antimony chalcogenides, including Sb2S3, Sb2Se3, and Sb2 (S, Se) 3, have been
developed as attractive non‐toxic and earth‐abundant solar absorber candidates among the …

The unique two-dimensional structure of graphene containing large surface area, high
conductivity, and good physicochemical stability brought a new era in science and …

Their unique quasi one-dimensional (Q1D) crystal structure and rapid power conversion
efficiency (PCE) evolution evoke tremendous scientific and technological interest in …

The exclusive characteristic properties of two-dimensional (2D) materials have enticed most
of the researchers and scientific community to employ a plethora of pioneering stratagems in …

Titanium oxide (TiO 2) precursor is often deposited on conductive fluorine doped tin oxide
(FTO) to convert into crystalline anatase phase after a thermal annealing at 400–550° C. A …

Increasing the electrochemical performance of electrode materials in sodium ion batteries
(NIBs) remains a major challenge. Here, a combined experimental and theoretical …

Antimony sulfide is a promising photovoltaic material for the top subcell of Si‐based tandem
solar cells due to its suitable bandgap, high absorption coefficient, low cost, and …

There is a concomitant interest in reducing carbon footprint and harvesting solar energy with
environmentally-friendly materials. In this context, the recent hydrothermal deposition of …

Insulin-like growth factor-I (Ag IGF-I) is a key biomarker in tumor progression. In this work, a
novel label-free electrochemical impedance biosensing platform for detection of Ag IGF-I …