2013
DOI: 10.1021/jp400648q
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Molecular Origins of the High-Performance Nonlinear Optical Susceptibility in a Phenolic Polyene Chromophore: Electron Density Distributions, Hydrogen Bonding, and ab Initio Calculations

Abstract: The molecular and supramolecular origins of the superior nonlinear optical (NLO) properties observed in the organic phenolic triene material, OH1 (2-(3-(4-hydroxystyryl)-5,5-dimethylcyclohex-2-enylidene)malononitrile), are presented. The molecular charge-transfer distribution is topographically mapped, demonstrating that a uniformly delocalized passive electronic medium facilitates the charge-transfer between the phenolic electron donor and the cyano electron acceptors which lie at opposite ends of the molecul… Show more

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Cited by 34 publications
(40 citation statements)
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“…In this context, the higher second and third order NLO properties of simple organic molecular materials have been extensively studied. [12][13][14][15] Past few decades have witnessed developments in terms of synthesis of a huge number of organic π conjugated molecules with suitable molecular design strategies for better NLO materials. 16 Many of these molecules bear donor and acceptor groups separated by a conjugated bridge (D-π-A) with a push-pull type of arrangement.…”
Section: Introductionmentioning
confidence: 99%
“…In this context, the higher second and third order NLO properties of simple organic molecular materials have been extensively studied. [12][13][14][15] Past few decades have witnessed developments in terms of synthesis of a huge number of organic π conjugated molecules with suitable molecular design strategies for better NLO materials. 16 Many of these molecules bear donor and acceptor groups separated by a conjugated bridge (D-π-A) with a push-pull type of arrangement.…”
Section: Introductionmentioning
confidence: 99%
“…Phase disruption is proposed as a new general principle for the design of molecules, nanowires and any quasi-1D quantum system with large intrinsic response and does not require charge donor-acceptors at the ends. © The design and realization of ultrafast nonlinear optical materials with large responses to optical frequency electric fields remains an active field of pure and applied research [1][2][3][4]. To date, no general design rules for obtaining large nonlinearities from any structure have been articulated, and the response of materials remains well below that allowed by quantum physics.…”
mentioning
confidence: 99%
“…The molecular structures of 2a-c, 2e, and 2f and their packing arrangements are shown in Figures 1, 2, 3, 4, and 5. As shown in Table 5, the torsion angles between double bonds and adjacent carbonyl [θ (0,1,2,3) ] groups are distributed from 41 to 50°, and the torsion angle between the double bonds with the two adjacent aryl rings [θ (2,3,4,5) and θ (6,7,8,9) ] are in the 27-42°and 16-89°range, respectively. Another noteworthy feature of these molecules in the crys- tal is torsion conformation, which is due to the large steric hindrance of the aryl groups linking to the double bonds.…”
Section: Crystal Structures Of Decatetraene Diketonesmentioning
confidence: 99%
“…[5][6][7][8] Recently, these compounds have attached growing interest as a result of their unique electronic structures and optoelectronic properties. [9][10][11] Considerable efforts have been devoted to the development of synthetic approaches to polyene derivatives. [12][13][14] Traditional methods are based on Wittig and Horner-Emmons-Wadsworth conversions [15,16] and transition-metal-(especially Pd)-catalyzed cross-coupling reactions.…”
Section: Introductionmentioning
confidence: 99%