Inverted energy gap law for the nonradiative decay in fluorescent floppy molecules: larger fluorescence quantum yields for smaller energy gaps

Shi Junqing; Izquierdo Maria A.; Oh Sangyoon; Park Soo Young; Milian-Medina Begona; Roca-Sanjuan Daniel; Gierschner Johannes

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Inverted energy gap law for the nonradiative decay in fluorescent floppy molecules: larger fluorescence quantum yields for smaller energy gaps

机译：荧光软缺水分子中的非地改性的倒置能隙法：较大的荧光量子产生较小的能量间隙

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摘要

A data survey on experimental fluorescence quantum yields of (multi)substituted dicyano-distyrylbenzenes in fluid solution evidences that non-radiative decay increases with the Franck-Condon energy (E-FC), being opposite to the conventional energy gap law. Quantum-chemistry indicates that this is controlled by access to the conical intersection (CI) following the Bell-Evans-Polanyi principle as a first-step approximation for this family of molecules; the variations in E-FC among the different compounds are found to be decisive, while those of E-CI are estimated to be weaker or even enhancing the effect. The current findings may have significant consequences for the design of molecules for organic solid state emitters.

机译：在流体溶液中的（多）取代的二氰基 - 苯并苯并苯并苯并苯并苯并的数据调查证明，与Franck-Condon能量（E-FC）增加，与传统的能隙法相反。量子化学表明，这是通过在钟形evans-Polanyi原则之后获得锥形交叉口（CI）作为该分子家族的第一步近似; 发现不同化合物中的E-Fc的变化是决定性的，而E-CI的那些估计是较弱的甚至增强效果。目前的发现可能对用于有机固态发射器的分子的设计具有显着的后果。

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《Organic Chemistry Frontiers》 |2019年第12期|共7页
作者
Shi Junqing; Izquierdo Maria A.; Oh Sangyoon; Park Soo Young; Milian-Medina Begona; Roca-Sanjuan Daniel; Gierschner Johannes;
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Madrid Inst Adv Studies IMDEA Nanosci Calle Faraday 9 Ciudad Univ Cantoblanco Madrid 28049 Spain;

Univ Groningen Zernike Inst Adv Mat Nijenborgh 4 NL-9747 AG Groningen Netherlands;

Seoul Natl Univ Dept Mat Sci &

Engn Ctr Supramol Optoelect Mat ENG 445 Seoul 08826 South Korea;

Seoul Natl Univ Dept Mat Sci &

Engn Ctr Supramol Optoelect Mat ENG 445 Seoul 08826 South Korea;

Univ Valencia Fac Chem Dept Phys Chem Ave Dr Moliner 50 E-46100 Valencia Spain;

Univ Valencia Inst Mol Sci Jose Beltran Martinez 2 Valencia 46980 Spain;

Madrid Inst Adv Studies IMDEA Nanosci Calle Faraday 9 Ciudad Univ Cantoblanco Madrid 28049 Spain;

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正文语种 eng
中图分类有机化学;
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专利

1. Inverted energy gap law for the nonradiative decay in fluorescent floppy molecules: larger fluorescence quantum yields for smaller energy gaps [J] . Shi Junqing, Izquierdo Maria A., Oh Sangyoon, Organic Chemistry Frontiers . 2019,第12期

机译：荧光软缺水分子中的非地改性的倒置能隙法：较大的荧光量子产生较小的能量间隙
2. Breakdown of energy transfer gap laws revealed by full-dimensional quantum scattering between HF molecules [J] . Dongzheng Yang, Jing Huang, Xixi Hu, Nature Communications . 2019,第1期

机译：通过HF分子之间的全尺寸量子散射揭示的能量转移差距法案
3. Comparative Study of the Influence of Photoluminescence Quantum Yield and Molecular Orientation of Wide-Energy-Gap Small Molecules on the Performance of Organic Schottky Junctions [J] . Yan-Qiong Zheng, Fang Yang, Jing Zhang, Photovoltaics, IEEE Journal of . 2016,第3期

机译：宽能隙小分子的光致发光量子产率和分子取向对有机肖特基结性能影响的比较研究
4. Picosecond Nonradiative Processes in Neodymium-doped Crystals and Glasses: Mechanism for the Energy Gap Law [C] . Camille Bibeau, Stephen A. Payne Advanced Solid State Lasers . 1998

机译：掺钕晶体和玻璃中的皮秒非辐射过程：能隙定律的机理
5. The energy trilogy: An integrated sustainability model to bridge wastewater treatment plant energy and emissions gaps. [D] . Al-Talibi, A. Adhim. 2014

机译：能源三部曲：集成的可持续发展模型，弥合废水处理厂的能源和排放差距。
6. Breakdown of energy transfer gap laws revealed by full-dimensional quantum scattering between HF molecules [O] . Dongzheng Yang, Jing Huang, Xixi Hu, -1

机译：HF分子之间的全尺寸量子散射揭示了能量转移间隙定律的破裂
7. Energy Gap Dependence of the Nonradiative Decay Rate Constant of 1-Anilino-8-naphthalene Sulfonate in Reverse Micelles. [O] . Noboru KITAMURA, Norio SAKATA, Haeng-Boo KIM, 1999

机译：逆转胶束中1-苯基-8-萘磺酸盐的非相抗衰减率常数的能隙依赖性。
8. Application of the Energy-GAP Law to Nonradiative, Excited-State Decay [R] . Caspar, J. V., Meyer, T. J. 1982

机译：能量-Gap法在非辐射激发态衰变中的应用

Inverted energy gap law for the nonradiative decay in fluorescent floppy molecules: larger fluorescence quantum yields for smaller energy gaps

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