Enhanced energy transport in genetically engineered excitonic networks

Park, Heechul; Heldman, Nimrod; Rebentrost, Patrick; Abbondanza, Luigi; Iagatti, Alessandro; Alessi, Andrea; Patrizi, Barbara; Salvalaggio, Mario; Bussotti, Laura; Mohseni, Masoud; Caruso, Filippo; Johnsen, Hannah C.; Fusco, Roberto; Foggi, Paolo; Scudo, Petra F.; Lloyd, Seth; Belcher, Angela M.

doi:10.1038/nmat4448

Cited by 90 publications

(102 citation statements)

References 34 publications

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“…4 Recent studies, however, have shown that an efficient singlet exciton migration can occur in highly ordered supramolecular materials. [6][7][8] In particular, Sung et al. have shown by ultrafast transient fluorescence spectroscopy that in helical π-stacks of perylene bisimides delocalized excitons are initially formed and move coherently along the chain in tens of femtoseconds prior to the excimer formation.…”

Section: Introductionmentioning

confidence: 99%

“…7 Heechul et al have obtained a tunable light-harvesting material, based on a selfassembled chromophore network controlled by a genetically-engineered virus template, which has exhibited enhanced exciton transport via a partially coherent regime. 8 These recent examples clearly highlight the growing interest for obtaining controllable molecular materials for potential nanophotonic and quantum information applications where excitons move beyond the incoherent transport regime. In this sense, it would be 3 useful to consider model systems for studying partially coherent exciton propagation with a good level of detail.…”

Section: Introductionmentioning

confidence: 99%

“…16,18 A few examples in related self-assembled systems (porphyrins) have shown that exciton diffusion can efficiently occur by means of a coherent mechanism. 19 Recently, an octa(butyl)-substituted metal-free phthalocyanine, H2-OBPc (1,4,8,11,15,18,22,25-octabutoxy-29H,31H-phthalocyanine, see Figure 1a) has been synthesized and exhibited good crystallinity properties (1D π-stacked arrangements, see Figure 1b) in thin films. 20,21 The high degree of crystallinity of the solution-processed thin films allowed Rawat et al to investigate the correlation between long-range order and the nature of the lowest exciton states of the aggregate.…”

Section: Introductionmentioning

confidence: 99%

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Exciton Dynamics in Phthalocyanine Molecular Crystals

2016

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In this paper, the exciton transport properties of an octa(butyl)-substituted metal-free phthalocyanine (H2-OBPc) molecular crystal have been explored by means of a combined computational (molecular dynamics and electronic structure calculations) and theoretical (model Hamiltonian) approximation. The excitonic couplings in phthalocyanines, where multiple quasi-degenerate excited states are present in the isolated chromophore, are computed with a multistate diabatization scheme which is able to capture both short-and long-range excitonic coupling effects. Thermal motions in phthalocyanine molecular crystals at room temperature cause substantial fluctuation of the excitonic couplings between neighboring molecules (dynamic disorder). The average values of the excitonic couplings are found to be not much smaller than the reorganization energy for the excitation energy transfer and the commonly assumed incoherent regime for this class of materials cannot be invoked. A simple but realistic model Hamiltonian is proposed to study the exciton dynamics in phthalocyanine molecular crystals or aggregates beyond the incoherent regime.2

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Exciton Dynamics in Phthalocyanine Molecular Crystals

2016

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“…After a time τ decoh = γ −1 the histories are fully decohered. Indeed, due to the specific model of decoherence (11), which amounts to projective measurements on |i i| at each site with a rate γ , the system kills the coherence in the site basis, which in turn corresponds to the stable pointer basis for this model [7], i.e., the basis in which the density matrix is forced to be diagonal by the specific decoherence model. On the other hand, and for the same reason, the dynamics starts to build up coherence in the exciton basis |E i E i | [see Fig.…”

Section: Trimermentioning

confidence: 99%

“…There is now an emerging consensus that efficient transport in natural and biologically inspired artificial light-harvesting systems builds on a finely tuned balance of quantum coherence and decoherence caused by environmental noise [9][10][11][12][13], a phenomenon known as environment-assisted quantum transport (ENAQT). This paradigm has emerged with clarity in recent years, as modern spectroscopic techniques first suggested that exciton transport within photosynthetic complexes might be coherent over appreciable time scales [14].…”

Section: Introductionmentioning

confidence: 99%

Global coherence of quantum evolutions based on decoherent histories: Theory and application to photosynthetic quantum energy transport

2016

Self Cite

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Assessing the role of interference in natural and artificial quantum dynamical processes is a crucial task in quantum information theory. To this aim, an appropriate formalism is provided by the decoherent histories framework. While this approach has been deeply explored from different theoretical perspectives, it still lacks of a comprehensive set of tools able to concisely quantify the amount of coherence developed by a given dynamics. In this paper, we introduce and test different measures of the (average) coherence present in dissipative (Markovian) quantum evolutions, at various time scales and for different levels of environmentally induced decoherence. In order to show the effectiveness of the introduced tools, we apply them to a paradigmatic quantum process where the role of coherence is being hotly debated: exciton transport in photosynthetic complexes. To spot out the essential features that may determine the performance of the transport, we focus on a relevant trimeric subunit of the Fenna-Matthews-Olson complex and we use a simplified (Haken-Strobl) model for the system-bath interaction. Our analysis illustrates how the high efficiency of environmentally assisted transport can be traced back to a quantum recoil avoiding effect on the exciton dynamics, that preserves and sustains the benefits of the initial fast quantum delocalization of the exciton over the network. Indeed, for intermediate levels of decoherence, the bath is seen to selectively kill the negative interference between different exciton pathways, while retaining the initial positive one. The concepts and tools here developed show how the decoherent histories approach can be used to quantify the relation between coherence and efficiency in quantum dynamical processes.

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DNA Lipoplex‐Based Light‐Harvesting Antennae

Kim

et al. 2017

Adv Funct Materials

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Natural light‐harvesting complexes are operated through the well‐designed self‐assembly of pigments with large protein complexes in a thylakoid lipid bilayer. However, a long‐range, directed transfer of excitation energy has not been achieved in artificial systems because the nanoscale arrangement of chromophores into stable micrometer‐scale structures is highly challenging. Here the multiscale assembly of chromophores for excited energy transfer through the arrangement of chromophores on nanoscale DNA templates followed by their incorporation into larger multilamellar lipid structures is reported. Single‐strand 10 nucleotide DNA molecules containing a terminal residue linked with three different chromophores are hybridized with their complementary 30 nucleotide matrix DNA strand. Due to the short DNA sequences, the energy transfer of the DNA‐templated chromophore arrays is limited at 4 °C. However, the incorporation of DNA‐templated chromophores into lipid‐DNA complexes dramatically increases both of the efficiencies and antenna effects of the single and two‐step energy transfers at room temperature through the structural stabilization and the secondary assembly of DNA between the interstitial spaces of multilamellar lipid structures. The findings suggest that the supramolecular alignment of DNA‐templated chromophores, which has never been explored previously, can be a very promising route toward directed, long‐range light harvesting.

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Enhanced energy transport in genetically engineered excitonic networks

Cited by 90 publications

References 34 publications

Exciton Dynamics in Phthalocyanine Molecular Crystals

Exciton Dynamics in Phthalocyanine Molecular Crystals

Global coherence of quantum evolutions based on decoherent histories: Theory and application to photosynthetic quantum energy transport

DNA Lipoplex‐Based Light‐Harvesting Antennae

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