Energy and Environmental Science

Non-fullerene acceptors with optimized energy levels enable 10% efficient solar cells with reduced voltage losses <0.6 V.

Bài viết này nêu bật thiết kế hợp lý các chất điện xúc tác và chất xúc tác quang (điện) hiệu quả cho sự khử N₂ thành amoniac (NH₃) dưới điều kiện môi trường.

The design and fabrication of carbon materials are highlighted for high volumetric performance of EES devices.

The controlled synthesis of nanohybrids composed of noble metals and metal oxides have received considerable attention for applications in photocatalysis, solar cells, drug delivery, surface enhanced Raman spectroscopy and many other important areas.

Doping single-atom metals into MoS₂ matrix can efficiently trigger the electrocatalytic hydrogen evolution activity of inert S atoms on 2D MoS₂ surface and meanwhile enhance catalytic stability and anti-poison ability.

The unique mesoscopic perovskite film architecture of 2D microplatelets on top of 3D nanocrystals enable an energy cascade, yielding highly efficient light-emitting diodes.

Ionic displacement modifying the electric field in the device is found as most likely reason for the hysteresis which is examined by separating fast and slow processes and comparing devices with and without blocking layer.