David Lao scite author profile

Two series of highly efficient and thermally stable nonlinear optical chromophores based on the (4diarylamino)phenyl electron donors have been synthesized and systematically investigated. A modular approach has been employed to synthesize these electron donors with tunable size, shape, and electrondonating abilities. Efficient conjugated bridges were extended from these donors and coupled with very strong CF 3 -TCF electron acceptors to afford chromophores with very high β values (up to 7077 × 10 -30 esu at 1.907 µm). These chromophores possess much higher thermal stability (with their onset decomposition temperatures all above 220 °C) than those substituted with (4-dialkylamino)phenyl donors. Most importantly, the high molecular hyperpolarizability of these chromophores can be effectively translated into very large electro-optic (E-O) coefficients (r 33 ) in poled polymers through suitable shape engineering. Exemplified by the chromophore B4, which has a fluorinated aromatic substituent anchored at its donor end, it showed a very large r 33 (169 pm/V) at 1.31 µm. This value is almost 1 order higher than the E-O activities usually reported for (4-diarylamino)phenyl-substituted NLO chromophores.

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Improving the Molecular Ion Signal Intensity for In Situ Liquid SIMS Analysis

Zhou

Yao

Ding

et al. 2016

J. Am. Soc. Mass Spectrom.

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Abstract. In situ liquid secondary ion mass spectrometry (SIMS) enabled by system for analysis at the liquid vacuum interface (SALVI) has proven to be a promising new tool to provide molecular information at solid-liquid and liquid-vacuum interfaces. However, the initial data showed that useful signals in positive ion spectra are too weak to be meaningful in most cases. In addition, it is difficult to obtain strong negative molecular ion signals when m/z>200. These two drawbacks have been the biggest obstacle towards practical use of this new analytical approach. In this study, we report that strong and reliable positive and negative molecular signals are achievable after optimizing the SIMS experimental conditions. Four model systems, including a 1,8-diazabicycloundec-7-ene (DBU)-base switchable ionic liquid, a live Shewanella oneidensis biofilm, a hydrated mammalian epithelia cell, and an electrolyte popularly used in Li ion batteries were studied. A signal enhancement of about two orders of magnitude was obtained in comparison with non-optimized conditions. Therefore, molecular ion signal intensity has become very acceptable for use of in situ liquid SIMS to study solid-liquid and liquid-vacuum interfaces.

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Partial Deoxygenation of Glycerol Catalyzed by Iridium Pincer Complexes

et al. 2013

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Iridium pincer complexes (POCOP)Ir(CO) (POCOP = κ 3 -C 6 H 3 -1,3-[OP( t Bu) 2 ] 2 ) and substituted POCOP derivatives catalyze deoxygenation of glycerol to npropanol and 1,3-propanediol in good yield under moderate conditions (acidic aqueous dioxane, 200 °C, 80 bar H 2 ). Catalyst solubility in the polar reaction mixture is improved by incorporation of a polar moiety in the para position of the POCOP phenyl ring, with the best results obtained with a dimethylamino substituent.

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Site-Isolated Electro-optic Chromophores Based on Substituted 2,2′-Bis(3,4-propylenedioxythiophene) π-Conjugated Bridges

et al. 2008

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Application of bis(propylenedioxythiophene) (bis(ProDOT)) π-conjugated bridges bearing alkyl or aryl substituents in electro-optic (EO) chromophores is presented. A series of three bis(ProDOT)-based chromophores and a bithiophene-based control chromophore were prepared and fully characterized with regard to EO applications. The highly planar bis(ProDOT) bridge results in slightly larger (∼10%) molecular hyperpolarizability ( ) values as compared to the bithiophene bridge, as measured by hyperRayleigh scattering at a variety of wavelengths. In amorphous polycarbonate guest-host films, however, the bulky substituents on the bis(ProDOT) bridge result in significantly larger (∼70%) poling-induced EO coefficient (r 33 ) values, as measured by simple reflection ellipsometry at 1310 nm. This can be attributed to a roughly 2-fold enhancement in poling efficiency due to reduced intermolecular dipole-dipole interactions. This chromophore architecture also exhibits excellent temporal alignment stability and photochemical stability as compared to benchmark AJL8, FTC, and CLD chromophore systems. Incorporation of the strong CF 3 -phenyl-substituted tricyano-furan (TCF) acceptor into a bis(ProDOT)-based chromophore resulted in a zzz (-2ω;ω,ω) value at 1907 nm of 5700 ( 400 × 10 -30 esu and an r 33 value of 69 ( 14 pm/V at 32.8 total chromophore weight %.

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Theory-inspired development of new nonlinear optical materials and their integration into silicon photonic circuits and devices

et al. 2010

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David Lao

Large Electro-optic Activity and Enhanced Thermal Stability from Diarylaminophenyl-Containing High-β Nonlinear Optical Chromophores

Improving the Molecular Ion Signal Intensity for In Situ Liquid SIMS Analysis

Partial Deoxygenation of Glycerol Catalyzed by Iridium Pincer Complexes

Site-Isolated Electro-optic Chromophores Based on Substituted 2,2′-Bis(3,4-propylenedioxythiophene) π-Conjugated Bridges

Theory-inspired development of new nonlinear optical materials and their integration into silicon photonic circuits and devices

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