Virus-Templated Assembly of Porphyrins into Light-Harvesting Nanoantennae

Nam, Yoon Sung; Shin, Taeho; Park, Heechul; Magyar, Andrew P.; Choi, Kyu-Myung; Fantner, Georg E.; Nelson, Keith A.; Belcher, Angela M.

doi:10.1021/ja908812b

Cited by 181 publications

(161 citation statements)

References 20 publications

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“…However, if such regime is practically inaccessible, here we found alternative scenarios for potential optimal material design beyond Goldilocks regime where certain configurations could still have high energy efficiencies, e.g., due to constructive quantum interference effects, but they become very sensitive to defects or environmental fluctuations. These model studies could be useful for design of structured molecular aggregates such as self-assembled dyes on tubular J-aggregates 46,47 and virusbased templates aggregates, 37,38,48,49 with potential applications to photovoltaic devices, photosensing, and biological sensing.…”

Section: Discussionmentioning

confidence: 99%

Geometrical effects on energy transfer in disordered open quantum systems

Mohseni

Shabani²,

Lloyd³

et al. 2013

The Journal of Chemical Physics

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Exact mapping between system-reservoir quantum models and semi-infinite discrete chains using orthogonal polynomials Journal of Mathematical Physics 51, 092109 (2010) We explore various design principles for efficient excitation energy transport in complex quantum systems. We investigate energy transfer efficiency in randomly disordered geometries consisting of up to 20 chromophores to explore spatial and spectral properties of small natural/artificial LightHarvesting Complexes (LHC). We find significant statistical correlations among highly efficient random structures with respect to ground state properties, excitonic energy gaps, multichromophoric spatial connectivity, and path strengths. These correlations can even exist beyond the optimal regime of environment-assisted quantum transport. For random configurations embedded in spatial

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Section: Discussionmentioning

confidence: 99%

Geometrical effects on energy transfer in disordered open quantum systems

Mohseni

Shabani²,

Lloyd³

et al. 2013

The Journal of Chemical Physics

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“…11,[16][17] Tubular aggregates formed by self-assembly of dye molecules represent one of the most promising constructs for biomimetic photosynthetic antenna systems. 5,7,[18][19][20] A prominent example of tubular molecular aggregates is derived from meso-tetra(4-sulfonatophenyl) porphyrin (TPPS4) and provides a biomimetic analogue of the chlorosomes of green sulfur bacteria. 9,[21][22][23][24] The structure of TPPS4 tubular aggregates has been characterized by small angle X-ray scattering, atomic force microscopy (AFM), and cryo-electron microscopy.…”

Section: Introductionmentioning

confidence: 99%

Exciton Level Structure and Dynamics in Tubular Porphyrin Aggregates

Wan

Stradomska²,

Fong

et al. 2014

J. Phys. Chem. C

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We present an account of the optical properties of the Frenkel excitons in self-assembled porphyrin tubular aggregates that represent an analog to natural photosynthetic antennae. Using a combination of ultrafast optical spectroscopy and stochastic exciton modeling, we address both linear and nonlinear exciton absorption, band) resulting from strong intermolecular coupling in these aggregates could potentially facilitate efficient energy transfer, fast relaxation due to defects and disorder probably present a major limitation for exciton transport over large distances. 3 Keywords:Frenkel exciton, biomimetic photosynthetic antennae, ultrafast spectroscopy, stochastic exciton modeling 4

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“…Scanning electron microscopy (SEM) images of the separated precipitate showed the presence of uniform spherical structures with average diameters of about 100 nm for Fmoc-l-Lys/Ce6 nanoparticles (FCNPs;F igure 1a), and about 200 nm for CDP/Ce6 nanoparticles (CCNPs;F igure 1c)i nt he given Theco-assembly of Ce6 with Fmoc-l-Lys or CDP results in ac onsiderably broader and red-shifted Soret band (Figure 2a), as expected for aggregates of different size or structure. [12] TheF moc groups of Fmoc-l-Lys and the aromatic residues in CDP can interact with the pyrrole groups of Ce6 by hydrophobic and p-p interactions.I n acontrol test, hydrophilic dilysine (KK) was mixed with Ce6, while no NPs were formed ( Figure S4). This indicates that hydrophobic and p-p interactions between Fmoc-l-Lys or CDP and Ce6 contribute to the coassembly.T he turbidity of the suspension of the NPs decreases in an environment of high ionic strength (Figure 2b), indicating the disassembly of NPs.T his suggests the existence of electrostatic forces in the coassembly process.T he fluorescence of assembled NPs (such as FCNPs) was dramatically suppressed compared to monomeric Ce6 ( Figure S5).…”

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confidence: 99%

Simple Peptide‐Tuned Self‐Assembly of Photosensitizers towards Anticancer Photodynamic Therapy

Xing

Zou

et al. 2016

Angewandte Chemie

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Peptide-tuned self-assembly of functional components offers astrategy towardsimproved properties and unique functions of materials,b ut the requirement of many different functions and al acko fu nderstanding of complex structures present ah igh barrier for applications.H erein, we report ap hotosensitive drug delivery system for photodynamic therapy( PDT) by as imple dipeptide-or amphiphilic aminoacid-tuned self-assembly of photosensitizers (PSs). The assembled nanodrugs exhibit multiple favorable therapeutic features, including tunable size,high loading efficiency,and on-demand drug release responding to pH, surfactant, and enzyme stimuli, as well as preferable cellular uptake and biodistribution. These features result in greatly enhanced PDT efficacy in vitro and in vivo,l eading to almost complete tumor eradication in mice receiving as ingle drug dose and as ingle exposure to light.

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Virus-Templated Assembly of Porphyrins into Light-Harvesting Nanoantennae

Cited by 181 publications

References 20 publications

Geometrical effects on energy transfer in disordered open quantum systems

Geometrical effects on energy transfer in disordered open quantum systems

Exciton Level Structure and Dynamics in Tubular Porphyrin Aggregates

Simple Peptide‐Tuned Self‐Assembly of Photosensitizers towards Anticancer Photodynamic Therapy

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