1. 毕业设计(论文)的内容和要求
本课题将设计并合成一些基于苯酰亚胺衍生物的超长有机磷光材料,并对其光物理性质进行研究。
在实现分子设计的基础上,进一步完成材料的制备过程,最后对其在高级加密和防伪领域的应用进行探索。
最后把整个研究内容写成毕业论文。
2. 参考文献
[1] Wang H, Shi H F, Ye W P, et al. Amorphous ionic polymers with color-tunable ultralong organic phosphorescence[J]. Angewandte Chemie International Edition, 2019, 58:18776-18782.[2] Sun C, Ran X Q, Wang X, et al. A twisted molecular structure on tuning ultralong organic phosphorescence[J]. The Journal of Physical Chemistry Letters, 2018, 9(2): 335-339.[3] Cheng Z C, Shi H F, Ma H L, et al. Ultralong phosphorescence from organic ionic crystals under ambient conditions [J]. Angewandte Chemie International Edition, 2017,3(57):678-682.[4] Wu Q, Ma H L, Ling K, et al. Reversible ultralong organic phosphorescence for visual and selective chloroform detection [J]. Acs Applied Materials p interactions[J]. Angewandte Chemie International Edition, 2018,15(57):4005-4009.[10] Wang X, Ma H L, Gu M X, et al. Multicolor ultralong organic phosphorescence through alkyl engineering for 4D coding applications[J]. Chemistry of Materials, 2019, 15(31): 5584-5591.[11] Gu L, Shi H F, Bian L F, et al. Color-tunable ultra-long organic phosphorescence of a single-component molecular crystal[J]. Nature Photonics, 2019,13:406-411.[12] Bian L F, Shi H F, Wang X, et al. Simultaneously enhancing efficiency and lifetime of ultralong organic phosphorescence materials by molecular self-assembly[J]. Journal of the American Chemical Society, 2018, 34(140):10734-10739.[13] Shi H F, Zou L, Huang K W, et al. A highly efficient red metal-free organic phosphor for time-resolved luminescence imaging and photodynamic therapy[J]. Acs Applied Materials Interfaces, 2019, 11(20):18103-18110[14] Cai S Z, Shi H F, Li J W, et al. Visible-light-excited ultralong organic phosphorescence by manipulating intermolecular interactions[J]. Advanced Materials, 2017,35(29):1701244.[15] Tian S, Ma H L, Wang X, et al. Utilizing d-p bond for ultralong organic phosphorescence[J]. Angewandte Chemie International Edition, 2019, 20(58): 6645-6649.[16] An Z F, Zheng C, Tao Y, et al. Stabilizing triplet excited states for ultralong organic phosphorescence[J]. Nature Materials, 2015,14:685-690.[17] Gu L, Shi H F, Gu M X, et al. Dynamic ultralong organic phosphorescence by photoactivation[J]. Angewandte Chemie International Edition, 2018,28(57): 8425-8431.[18] Ma C Q, Ma H L, Ling K, et al. Insight into chirality on molecular stacking for tunable ultralong organic phosphorescence[J]. Journal of Materials Chemistry C, 2018, 6:10179-10183.[19] Yang C C, Gu L, Ma C Q, et al. Controllable co-assembly of organic micro/nano heterostructures from fluorescent and phosphorescent molecules for dual anti-counterfeiting[J]. Materials Horizons,2019,5(6): 984-989.[20] Shi H F, An Z F, Li P Z, et al. Enhancing organic phosphorescence by manipulating heavy-atom interaction[J]. Crystal Growth Design, 2016,16(2):808-813.
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