Handbook of Aggregation-Induced Emission, Volume 1. Группа авторов. Читать онлайн. Newlib. NEWLIB.NET

Автор: Группа авторов
Издательство: John Wiley & Sons Limited
Серия:
Жанр произведения: Химия
Год издания: 0
isbn: 9781119642893
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material design [2–4]. The compounds with AIE characteristics (AIEgens) have attracted much attention for their wide applications in solid‐state lighting, flat panel display, chemical sensor, cell imaging, and so on in the last 20 years [2]. The luminescent properties in the solid state are often significantly different from the isolated component at the molecular level. It is urgent to reveal the intrinsic AIE mechanism to realize the precise design of more efficient emitters; however, it is a challenging task.

      2.2.1 Radiative and Nonradiative Rate Constants

      The radiative decay rate constant (kr) and nonradiative decay rate constant (knr = kic + kisc) are decisive parameters for the luminescence quantum efficiency, where kic and kisc are nonradiative internal conversion (IC) and intersystem crossing (ISC) rate constants, respectively. In most organic molecules, kisc can be neglected owing to the small spin−orbit coupling for the ππ* electronic transition; therefore, knrkic.

      The kr was computed by integrating over the whole emission spectrum:

      (2.2)sigma Subscript e m Baseline left-parenthesis omega comma upper T right-parenthesis equals StartFraction 4 omega cubed Over 3 italic h over two pi c cubed EndFraction sigma-summation Underscript u comma nu Endscripts upper P Subscript normal i v Baseline left-parenthesis upper T right-parenthesis StartAbsoluteValue left pointing angle upper Theta Subscript normal f u Baseline StartAbsoluteValue ModifyingAbove mu With right-arrow Subscript f i Baseline EndAbsoluteValue upper Theta Subscript normal i nu Baseline right pointing angle EndAbsoluteValue squared delta left-parenthesis omega Subscript normal i nu comma normal f u Baseline minus omega right-parenthesis

      where P is the Boltzmann distribution function of the initial state at a certain temperature, Θ is the nuclear vibrational wave function, and ModifyingAbove mu With right-arrow Subscript f i Baseline equals left pointing angle upper Phi Subscript normal f Baseline StartAbsoluteValue ModifyingAbove mu With right-arrow EndAbsoluteValue upper Phi Subscript normal i Baseline right pointing angle is the electric transition dipole moment between two electronic states.

      Based on the FGR, the nonradiative IC constant can be written as [23]:

      where Eiv(Efu) reflects the electronic and vibrational energies of the initial (final) state, and ModifyingAbove upper H prime With Ì‚ represents the non‐Born–Oppenheimer coupling.

      where upper R Subscript k l Baseline equals left pointing angle upper Phi Subscript f Baseline StartAbsoluteValue ModifyingAbove upper P With ˆ Subscript f k Baseline EndAbsoluteValue upper Phi Subscript i Baseline right pointing angle left pointing angle upper Phi Subscript i Baseline vertical-bar ModifyingAbove upper P With ˆ Subscript f l Baseline vertical-bar upper Phi Subscript f Baseline right pointing angle is the nonadiabatic electronic coupling and ρIC(t, T) is the thermal vibration correlation function (TVCF) [10–12]

      (2.5)lamda Subscript i Baseline equals 1 slash 2 omega Subscript i Superscript 2 Baseline upper D Subscript i Superscript 2