Anticipating Acene-Based Chromophore Spectra with Molecular Orbital Arguments

Fuemmeler, Eric G.; Sanders, Samuel N.; Kumarasamy, Elango; Sfeir, Matthew Y.; Campos, Luis M.; Ananth, Nandini

doi:10.1021/acs.jpca.8b12222

Cited by 27 publications

(31 citation statements)

References 87 publications

(372 reference statements)

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“…intensity borrowing. 77 This description closely reproduces the experimental trend of Figure 1c for the molar extinction coefficient, which is minimized in intermediate-polarity solvents. The calculated molar extinction coefficient is shown in SI Section S1.3 for a range of solvents.…”

Section: Resultssupporting

confidence: 80%

Switching between Coherent and Incoherent Singlet Fission via Solvent-Induced Symmetry Breaking

et al. 2019

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Singlet fission in organic semiconductors causes a singlet exciton to decay into a pair of triplet excitons and holds potential for increasing the efficiency of photovoltaic devices. In this combined experimental and theoretical study, we reveal that a covalent dimer of the organic semiconductor tetracene undergoes activated singlet fission by qualitatively different mechanisms depending on the solvent environment. We show that intramolecular vibrations are an integral part of this mechanism, giving rise to mixing between charge transfer and triplet pair excitations. Both coherent or incoherent singlet fission can occur, depending on transient solvent-induced energetic proximity between the states, giving rise to complex variation of the singlet fission mechanism and timescale in the different environments. Our results suggest a more general principle for controlling the efficiency of photochemical reactions by utilizing transient interactions to tune the energetics of reactant and product states and switch between incoherent and coherent dynamics. 1

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Section: Resultssupporting

confidence: 80%

Switching between Coherent and Incoherent Singlet Fission via Solvent-Induced Symmetry Breaking

et al. 2019

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“…For intermediate-polarity solvents, we find that CT ↓ and LE B are energetically very close, leading to a strong mixing and transfer of oscillator strength from LE to CT, i.e. intensity borrowing [318]. This description closely reproduces the experimental trend of Figure 9.1c for the molar extinc- If the equivalently destabilised state CT ↑ were to form, we would in principle expect it to relax into CT ↓ .…”

Section: Modelling Of Vibrational and Solvent Effectssupporting

confidence: 79%

On Exciton–Vibration and Exciton–Photon Interactions in Organic Semiconductors

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2021

Springer Theses

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This thesis is the result of my own work and includes nothing which is the outcome of work done in collaboration except as declared in the Preface and specified in the text. It is not substantially the same as any that I have submitted, or, is being concurrently submitted for a degree or diploma or other qualification at the University of Cambridge or any other University or similar institution except as declared in the Preface and specified in the text.I further state that no substantial part of my thesis has already been submitted, or, is being concurrently submitted for any such degree, diploma or other qualification at the University of Cambridge or any other University or similar institution except as declared in the Preface and specified in the text. It does not exceed the prescribed word limit for the Physics and Chemistry Degree Committee. Antonios M. AlvertisI thank my good friends Vasilis and Stratis for all the incredibly fun times in Cambridge and Athens, for hosting me in their house countless times, for sharing their food which was always tasty, for the music evenings, for having drinks at Darbar and so much more that I could never put on paper. I thank Iasonas and Georgia, that together with Stratis formed my St Edmund's crew of my last year, making me to always hang around college and looking forward to our dinners together and to our chats in the CR.Almost from my first day in Cambridge, and up to the last as a Ph.D. student, I stayed in Link House. It was amazing how many good friends from all over the world I made in this international community. I am thankful to the wardens, Gary and Anne, for making sure that the atmosphere was always so great, and for always being there when I needed support in any way possible. There is a lot I could say about my friends from the house, but a big thanks to Daniele and Jee-Yeon, Diego, Elena, Toshi and Chiara will have to suffice for now.Even lockdown was a nice time in Link House, for which special thanks go to Beatrice for all the fun things we did and for teaching me so much about movies.I would never have managed to achieve the things I did had it not been for my family and friends in Greece. I cannot imagine that one could wish for better and more supportive parents than my mother Cornelia and my father Yannis. Without them, and without my grandparents Antonis and Vasiliki, I would not be the person I am today. I owe eternal gratitude to our family friend Dr. Panagiotis Komninos, who so tragically passed away.It was largely thanks to our countless discussions on physics and what it's like to be an academic abroad that I was able to obtain a better understanding of the possible paths I could follow. It was also always such good fun to hear his stories about the Greek community in Munich. Finally, I owe the deepest thanks to my aunts Zeta and Mary for always being there in the difficult times, and my aunt Monica and cousin Marina for their unconditional love. Contents 1 Introduction I Background 2 Organic semiconductors and their properties 2.1 The chemis...

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“…We stress that there are many other theoretical techniques which may be of use in explaining the functionality of radical OLEDs, and which have previously been successfully applied in optoelectronic systems, such as group theory 27 which can inform orbital mixing 16,19,28 and spin-orbit coupling, 28,29 as well as intensity borrowing theory. 2,16,30 Further application of these theories to radicals is left as future work.…”

Section: Homo Somomentioning

confidence: 99%

“…6 Since the discovery in 2018 of a highly-efficient radical OLED, there has been great interest in radical optoelectronics, both synthetic 2, 5 and computational, 5,[7][8][9][10] as well as review articles from an organic synthetic perspective 3 and an applied physics viewpoint. 11 However, there has been comparatively little research into the theoretical electronic structure of organic radicals, and the success of methods such as Hückel theory and Pariser-Parr-Pople (PPP) theory [12][13][14][15] for closed-shell optoelectronic species [16][17][18][19] suggests that this could be a promising avenue of research for radicals too. We therefore seek to go beyond the qualitiative (but usually correct) depiction of radical electronic structure as shown in Fig.…”

Section: Introductionmentioning

confidence: 99%

On the electronic structure of alternant conjugated organic radicals for light-emitting diode applications

Hele

2021

Physical Chemistry of Semiconductor Materials and Interfaces XX

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Since the demonstration in 2018 that organic radicals can be used to make highly efficient organic light-emitting diodes, there has been an explosion of interest in their capabilities and many experimental and computational studies of their performance. Here we take a theoretical view and describe the electronic structure of radicals from an algebraic perspective. By rediscovering and adapting historic investigations of organic radicals, we show how many experimentally useful properties can be determined without synthesis or computation, but simply from knowledge of the molecular structure and in particular whether or not the radical is an alternant hydrocarbon. These include the location of orbital amplitude in the SOMO, absorption and emission characteristics, and solvatochromic shift. We explain these results in the context of modern organic light-emitting diodes in order to inform future investigations.

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Anticipating Acene-Based Chromophore Spectra with Molecular Orbital Arguments

Cited by 27 publications

References 87 publications

Switching between Coherent and Incoherent Singlet Fission via Solvent-Induced Symmetry Breaking

Switching between Coherent and Incoherent Singlet Fission via Solvent-Induced Symmetry Breaking

On Exciton–Vibration and Exciton–Photon Interactions in Organic Semiconductors

On the electronic structure of alternant conjugated organic radicals for light-emitting diode applications

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