Non-radiative transitions in semiconductors

Stoneham, A. M.

doi:10.1088/0034-4885/44/12/001

Cited by 351 publications

(141 citation statements)

References 174 publications

(119 reference statements)

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“…In solid-state physics, there is a well-known role for what are termed promoting modes, which affect the rate of some processes. The promoting mode (Stoneham 1981) is not the reaction coordinate, but makes a key step easier. In solid-state diffusion, a promoting mode might open a gap between atoms, so a diffusing atom can migrate more easily.…”

Section: How Might Flexibility Affect Olfaction?mentioning

confidence: 99%

Odour character differences for enantiomers correlate with molecular flexibility

Brookes

Horsfield

Stoneham

2008

J. R. Soc. Interface.

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The olfactory system sensitively discerns scents from many small molecules as the brain analyses signals from nasal receptors. These receptors are selective to some degree, though the mechanism for selectivity is still controversial. Enantiomers, chiral pairs of left-and right-handed structures, are an important class of molecules in assessing proposed mechanisms. We show that there is a correlation between molecular (structural) flexibility and whether or not the left-and right-handed enantiomers smell the same. In particular, for the fairly extensive class of enantiomers with six-membered ring flexibility, enantiomers do not smell the same. There are, of course, significant experimental uncertainties, which we discuss here. We discuss models of receptor selectivity, both those based on shape and those where discrimination is based on other factors, such as electron affinity, proton affinity or vibration frequencies. The differences in scent of these enantiomers appear to be consistent with simple generalizations of a 'swipe card' model in which, while the shape must be good enough, critical information for actuation is a separate factor.

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Section: How Might Flexibility Affect Olfaction?mentioning

confidence: 99%

Odour character differences for enantiomers correlate with molecular flexibility

Brookes

Horsfield

Stoneham

2008

J. R. Soc. Interface.

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“…This is important for two reasons. First, they relate to the optical spectrum of a single chain in a way which is often described by Huang-Rhys theory (Stoneham 1975). However, we note that a conjugated polymer is not a system to which Huang-Rhys theory strictly applies (because there are many electronic states, and many modes with different frequencies, involved), so Huang-Rhys factors from observables (zero-phonon-line fraction, Stokes shift, linewidth) may not agree.…”

Section: Static Properties: Energetics and Distortionsmentioning

confidence: 94%

“…Within the bulk of the organic semiconductor, the important competition in electron-hole recombination is between the emission of light and the creation of heat. In principle, an important factor in both processes is the line-shape function G(E) (see, e.g., Stoneham 1975, 1981, Itoh and Stoneham 2001, which measures how the system (here the chain plus its environment) responds to the almost instantaneous forces on change of electronic state. In essence, G(E) relates to the ease with which energy E can be taken up by the vibrational system.…”

Section: Radiative and Non-radiative Transitionsmentioning

confidence: 99%

“…The rule assumes that either phonons of a single frequency (usually the largest available) dominate, or that the proportions of the various frequencies are the same for different values of n. It is not clear from the data of Wilson et al (2001aWilson et al ( , 2001b whether there is a promoting mode as well as the accepting mode, nor is it certain that the accepting modes are the same for radiative and non-radiative transitions. Certainly, there are vibrations of several different energies in the observed optical spectrum, and these correspond to smaller energies than one would estimate from direct application of the energy gap analysis (Wilson et al 2001a(Wilson et al , 2001b) and the observation that it is hard to understand the energy gap rule unless γ is in a range of order 1-2 (see, e.g., Stoneham 1981). Using the observed slopes, this range of γ implies, for the non-radiative transitions, polymer phonon energy from 0.17 to 0.34 eV and monomer phonon energies from 0.26 to 0.52 eV.…”

Section: Radiative and Non-radiative Transitionsmentioning

confidence: 99%

“…The tunnelling matrix element will be determined by the longer-range parts of the wavefunction, rather than the shorter-range terms which dominate in the energy. The longest-range component has an exponent which is proportional to the square root of the binding energy (see Stoneham (1975), p 131, or Newton (1960). …”

Section: Inter-chain Recombinationmentioning

confidence: 99%

See 2 more Smart Citations

Understanding electron flow in conducting polymer films: injection, mobility, recombination and mesostructure

Stoneham

Ramos

Almeida

et al. 2002

J. Phys.: Condens. Matter

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We survey the current state of models for electronic processes in conducting polymer devices, especially light-emitting diodes. We pay special attention to several processes that have been somewhat neglected in the previous literature: charge injection from electrodes into a polymer sample, mobility of charge-or energy-carrying defects within a single molecule and (more briefly) transfer of carriers between molecules and the interaction between the charge transport and the mesostructure of the polymer. Within all these areas substantial progress has been made in recent years in elucidating the important physics, but further progress is needed to make quantitative contact with experiment.

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