1) absorption red-shift
吸收红移
1.
Design of composites based on supramolecular structure of nanoparticles-dye and mechanism of absorption red-shift;
纳米粒子与染料超分子结构复合材料的设计及其吸收红移机理
2) red-shift/ nearinfrared absorbing
红移/近红外吸收
3) absorption spectrum Einstein shift
吸收光谱红移
5) altered halos
近红外吸收边缘蓝移
6) red shift of optical absorption band edge
吸收光谱带边红移
1.
It is found that the apparent optical band gap decreased and the red shift of optical absorption band edge increased as the diameter of TiO2 UFP coated decreased.
制备了一系列表面包覆硬脂酸的TiO_2超微粒,发现表面包覆硬脂酸的TiO_2超微粒随着超微粒粒径减小,其表观光学带隙(E_g)降低,即吸收光谱带边红移加大。
