In this study, aluminum-doped porphyrin-like porous fullerene (Al@C24N24) is used as a potential adsorbent for scavenging aquatic carcinogenic methylene blue (MB) dye.
A novel Dy, C co-doped material on 2D AlN monolayer is introduced. DFT calculations show that the bandgap of Al24N22DyC2 decreases, absorption rate of visible light and catalytic activities of HER and OER increases significantly.
C16B16N16 and B24N24 may be used as HU drug carriers.
Digesting lithium insertion materials in acid solutions leads to today's discovery and developments of lithium-ion batteries (LIBs), and has recently received significant attention as a leaching process for recycling spent LIBs.
We evaluate an electronic transition at −0.4 eV, which provides quantitative insight into the magnitude of the splitting of the eg orbital into dx2−y2 and dz2 orbitals. Through this process, we determine that Ti3+ and Ti4+ ions occupy sites Ti1 and Ti2, respectively.