Perovskite semiconductors efficiently convert sunlight into electrical energy; they are also inexpensive and extremely ...
Cell–cell junctions form the structural and functional backbone of multicellular tissues, coupling adhesive complexes with the actomyosin cytoskeleton to regulate barrier function, tissue remodelling ...
Our body consists of ~30 trillion cells. These cells need to tightly attach to each other to maintain the integrity of our body. However, we are constantly exposed to mechanical stress, which ...
“Collectively, these advancements offer ground-breaking insights into mitigating energy loss in perovskite solar cells,” said assistant professor Hou Yi (right). Image: NUS Researchers from the ...
Our bodies and organs are shielded from the external environment by tissue barriers like the skin. These barriers must be tightly sealed to prevent unwanted substances from entering. This sealing is ...
Fabricated via thermal evaporation, the champion perovskite-perovskite-silicon triple-junction solar cell reached an efficiency of around 22% after 110 hours of fixed-voltage operation under ambient ...
Perovskite semiconductors efficiently convert sunlight into electrical energy; they are also inexpensive and extremely lightweight. A team at HZB has ...
An international research team built the triple-junction device with dual bulk and interface passivation technique aimed at promoting halide homogeneity at the interface between the perovskite ...
Assistant Professor HOU Yi (right) and Dr LIU Shunchang (left) from the National University of Singapore (NUS) fabricated the new triple-junction perovskite/Si tandem solar cells using cutting-edge ...