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251. Competing C-Br and O-NO Photofission upon Excitation of BrCH2CH2ONO at 193 nm.

Author

Lei Wang, Scrape, Preston G., Roberts, Trevor D., Joshi, Prakriti P., and Butler, Laurie J.

Subjects
*CARBON compounds, *COMPLEX compounds, *PHOTOFISSION, *PHOTODISSOCIATION, *RADICALS (Chemistry), *CHEMICAL bonds, *MOLECULAR vibration
Abstract

This study characterizes two of the primary photodissociation channels of 2-bromoethyl nitrite, BrCH2CH2ONO, at 193 nm and the subsequent unimolecular dissociation channels of the nascent vibrationally excited BrCH2CH2O radicals produced from the O-NO bond photofission. We use a crossed laser-molecular beam scattering apparatus with electron bombardment detection. Upon photodissociation of BrCH2CH2ONO at 193 nm, the measured branching ratio between primary O-NO photofission and C-Br photofission is 3.9:1 (O-NO/C-Br). The measured O-NO photofission recoil kinetic energy distribution (P(ET)) peaks near 30 kcal/mol and extends from 20 to 50 kcal/mol. We use the O-NO photofission P(ET) to characterize the internal energy distribution in the nascent ground-electronic-state BrCH2CH2O radicals. At 193 nm, all of the BrCH2CH2O radicals are formed with enough internal energy to unimolecularly dissociate to CH2Br + H2CO or to BrCH2CHO + H. We also investigated the possibility of the BrCH2CH2O → CH2CHO + HBr reaction arising from the vibrationally excited BrCH2CH2O radicals produced from O-NO primary photodissociation. Signal strengths at HBr+, however, demonstrate that the vinoxy product does not have HBr as a cofragment, so the BrCH2CH2O → HBr + vinoxy channel is negligible compared to the CH2Br + H2CO channel. We also report our computational prediction of the unimolecular dissociation channels of the vibrational excited CH2CH2ONO radical resulting from C-Br bond photofission. Our theoretical calculations on the ground-state CH2CH2ONO potential energy surface at the G4//B3LYP/6-311++G(3df,2p) level of theory give the energetics of the zero-point corrected minima and transition states. The lowest accessible barrier height for the unimolecular dissociation of CH2CH2ONO is a 12.7 kcal/mol barrier from the cis-ONO conformer, yielding NO2 + ethene. Our measured internal energy distribution of the nascent CH2CH2ONO radicals together with this computational result suggests that the CH2CH2ONO radicals will dissociate to NO2 + ethene, with a small possible branching to NO + oxirane. [ABSTRACT FROM AUTHOR]

Published
2015
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253. Occurrence and Profile Characteristics of the Pesticide Imidacloprid, Preservative Parabens, and Their Metabolites in Human Urine from Rural and Urban China.

Author

Lei Wang, Tianzhen Liu, Fang Liu, Junjie Zhang, Yinghong Wu, and Hongwen Sun

Subjects
*IMIDACLOPRID, *PARABENS, *URINALYSIS
Abstract

Knowledge of human exposure to imidacloprid, the most extensively used insecticide, and para-hydroxybenzoic acid esters (parabens), the most extensively used preservative, is insufficient. In this study, 295 urine samples collected from subjects in rural and urban areas in China were analyzed for imidacloprid and four parabens (namely, methyl paraben, ethyl paraben, propyl paraben, and butyl paraben) as well as their major metabolites (namely, 6-chloronicotinic acid (6-ClNA) and para-hydroxybenzoic acid (p-HB)). Imidacloprid was detected in 100% of the urine samples from rural Chinese subjects and 95% of the urine samples from urban Chinese subjects. Concentrations of urinary imidacloprid detected in rural Chinese subjects (geometric mean (GM) = 0.18 ng/mL) were slightly higher than those detected in urban Chinese subjects (GM = 0.15 ng/mL) when the effect of pesticide spraying was excluded. However, concentrations of urinary imidacloprid detected in rural adults increased significantly in the subsequent days of pesticide spraying (GM = 0.62 ng/mL), which could return to the normal levels within 3 days. In contrast, concentrations of urinary parabens detected in rural Chinese subjects (GM = 6.90 ng/mL) were lower than that in urban Chinese subjects (GM = 30.5 ng/mL). In addition, the metabolism characteristics of imidacloprid to 6-ClNA and parabens to p-HB were discussed preliminarily. [ABSTRACT FROM AUTHOR]

Published
2015
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258. Three-Coordinate Iron(IV) Bisimido Complexes with Aminocarbene Ligation: Synthesis, Structure, and Reactivity.

Author

Lei Wang, Lianrui Hu, Hezhong Zhang, Hui Chen, and Liang Deng

Subjects
*IRON compound synthesis, *IMIDES, *CARBENE derivatives, *REACTIVITY (Chemistry), *NUCLEAR magnetic resonance spectroscopy, *LIGATION reactions, *AZIDES, *HYDRIDES
Abstract

High-valent iron imido species are implicated as reactive intermediates in many iron-catalyzed transformations. However, isolable complexes of this type are rare, and their reactivity is poorly understood. Herein, we report the synthesis, characterization, and reactivity studies on novel three-coordinate iron(IV) bisimido complexes with aminocarbene ligation. Using our recently reported synthetic method for [LFe(NDipp)2] (L = IMes, 1; Me2-cAAC, 2), four new iron(IV) imido complexes, [(IPr)Fe(NDipp)2] (3) and [(Me2-cAAC)Fe(NR)2] (R = Mes, 4; Ad, 5; CMe2CH2Ph, 6), were prepared from the reactions of three-coordinate iron(0) compounds with organic azides. Characterization data acquired from ¹H and 13C NMR spectroscopy, 57Fe Mössbauer spectroscopy, and X-ray diffraction studies suggest a low-spin singlet ground state for these iron(IV) complexes and the multiple-bond character of their Fe-N bonds. A reactivity study taking the reactions of 1 as representative revealed an intramolecular alkane dehydrogenation of 1 to produce the iron(II) complex [(IMes)Fe(NHDipp)(NHC6H3-2-Pri-6-CMe-CH2)] (7), a Si-H bond activation reaction of 1 with PhSiH3 to produce the iron(II) complex [(IMes)Fe(NHDipp)(NDippSiPhH2)] (8), and a [2+2]-addition reaction of 1 with PhNCNPh and p-PriC6H4NCO to form the corresponding open-shell formal iron(IV) monoimido complexes [(IMes)Fe(NDipp)(N(Dipp)C(NPh)(-NPh))] (9) and [(IMes)Fe(NDipp)(N(Dipp)C(O)N(p-PriC6H4))] (10), as well as [NDipp]-group-transfer reactions with CO and ButNC. Density functional theory calculations suggested that the alkane chain dehydrogenation reaction starts with a hydrogen atom abstraction mechanism, whereas the Si-H activation reaction proceeds in a [2p+2s]-addition manner. Both reactions have the pathways at the triplet potential energy surfaces being energetically preferred, and have formal iron(IV) hydride and iron(IV) silyl species as intermediates, respectively. The low-coordinate nature and low d-electron count (d4) of iron(IV) imido complexes are thought to be the key features endowing their unique reactivity. [ABSTRACT FROM AUTHOR]

Published
2015
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265. Acid-Disintegratable Polymersomes of pH-ResponsiveAmphiphilic Diblock Copolymers for Intracellular Drug Delivery.

Author

Lei Wang, Guhuan Liu, Xiaorui Wang, Jinming Hu, Guoying Zhang, and Shiyong Liu

Subjects
*POLYMERSOMES, *AMPHIPHILES, *DIBLOCK copolymers, *DRUG delivery systems, *PH effect, *FABRICATION (Manufacturing), *CHAIN transfer (Chemistry), *HYDROPHOBIC surfaces
Abstract

Supramolecular vesicles, also referredto as polymersomes, self-assembledfrom amphiphilic polymers capable of synchronically loading with bothhydrophilic and hydrophobic payloads have shown promising potentialin drug delivery application. Herein, we report the fabrication ofpH-responsive polymersomes via supramolecular self-assembly of amphiphilicdiblock copolymers, poly(ethylene oxide)-b-poly(2-((((5-methyl-2-(2,4,6-trimethoxyphenyl)-1,3-dioxan-5-yl)methoxy)carbonyl)amino)ethylmethacrylate) (PEO-b-PTTAMA), which were synthesizedvia reversible addition–fragmentation chain transfer (RAFT)polymerization of a pH-responsive monomer (i.e., TTAMA) using a PEO-basedmacroRAFT agent. The resultant amphiphilic diblock copolymer thenself-assembled into vesicles consisting of hydrophilic PEO coronasand pH-responsive hydrophobic bilayers, as confirmed by TEM and DLSmeasurements. The polymersomes containing cyclic benzylidene acetalsin the hydrophobic bilayers were relatively stable under neutral pH,whereas they underwent hydrolysis with the liberation of hydrophobic2,4,6-trimethoxybenzaldehyde and the simultaneous generationof hydrophilic diol moieties upon exposure to acidic pH milieu, whichcould be monitored by UV/vis spectroscopy, SEM, and TEM observations.By loading hydrophobic model drug (Nile red) as well as hydrophilicchemotherapeutic drug (doxorubicin hydrochloride, DOX·HCl) intothe bilayer and aqueous interior of the polymersomes, the subsequentrelease of Nile red and DOX·HCl payloads was remarkably regulatedby the solution pH values, and a lower pH value led to a faster drugrelease profile. In vitroexperiment, observed bya confocal laser scanning microscope (CLSM), revealed that the pH-responsivepolymersomes were easily taken up by HeLa cells and were primarilylocated in the acidic organelles after internalization, where thepH-responsive cyclic acetal moieties were hydrolyzed and the embeddedpayloads were therefore released, allowing for on-demand release ofthe encapsulants mediated by intracellular pH. In addition to smallmolecule chemotherapeutic drugs, biomacromolecules (alkaline phosphatase,ALP) can also be encapsulated into the aqueous lumen of the polymersomes.Significantly, the pH-triggered degradation of polymersomes couldalso regulate the release of encapsulated ALP, as confirmed by ALP-activatedfluorogenic reaction. [ABSTRACT FROM AUTHOR]

Published
2015
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266. 6-Substituted Pyrrolo[2,3-d]pyrimidine Thienoyl Regioisomers as Targeted Antifolates for Folate Receptor α and the Proton-Coupled Folate Transporter in Human Tumors.

Author

Lei Wang, Wallace, Adrianne, Raghavan, Sudhir, Deis, Siobhan M., Wilson, Mike R., Si Yang, Polin, Lisa, White, Kathryn, Kushner, Juiwanna, Orr, Steven, George, Christina, O'Connor, Carrie, Zhanjun Hou, Mitchell-Ryan, Shermaine, Dann, Charles E., Matherly, Larry H., and Gangjee, Aleem

Subjects
*ANTINEOPLASTIC agents, *JUNO protein, *CARRIER proteins, *TARGETED drug delivery, *TUMOR treatment, *HAMSTERS as laboratory animals
Abstract

2-Amino-4-oxo-6-substituted-pyrrolo[2,3-d]pyrimidine antifolate thiophene regioisomers of AGF94 (4) with a thienoyl side chain and three-carbon bridge lengths [AGF150 (5) and AGF154 (7)] were synthesized as potential antitumor agents. These analogues inhibited proliferation of Chinese hamster ovary (CHO) sublines expressing folate receptors (FRs) α or β (IC50s < 1 nM) or the proton-coupled folate transporter (PCFT) (IC50 < 7 nM). Compounds 5 and 7 inhibited KB, IGROV1, and SKOV3 human tumor cells at subnanomolar concentrations, reflecting both FRα and PCFT uptake. AGF152 (6) and AGF163 (8), 2,4-diamino-5-substituted-furo[2,3-d]pyrimidine thiophene regioisomers, also inhibited growth of FR-expressing CHO and KB cells. All four analogues inhibited glycinamide ribonucleotide formyltransferase (GARFTase). Crystal structures of human GARFTase complexed with 5 and 7 were reported. In severe combined immunodeficient mice bearing SKOV3 tumors, 7 was efficacious. The selectivity of these compounds for PCFT and for FRα and β over the ubiquitously expressed reduced folate carrier is a paradigm for selective tumor targeting. [ABSTRACT FROM AUTHOR]

Published
2015
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268. 6-Substituted Pyrrolo[2,3-d]pyrimidine Thienoyl Regioisomers as Targeted Antifolates for Folate Receptor a and the Proton-Coupled Folate Transporter in Human Tumors.

Author

Lei Wang, Wallace, Adrianne, Raghavan, Sudhir, Deis, Siobhan M., Wilson, Mike R., Si Yang, Polin, Lisa, White, Kathryn, Kushner, Juiwanna, Orr, Steven, George, Christina, O'Connor, Carrie, Zhanjun Hou, Mitchell-Ryan, Shermaine, Dann III, Charles E., Matherly, Larry H., and Gangjee, Aleem

Published
2015
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272. Octupolar (C3and S4) Symmetric Cyclized Indole Derivatives: Syntheses,Structures, and NLO Properties.

Author

Lei Wang, Qi Fang, Qing Lu, Shao-jun Zhang, Ying-ying Jin, and Zhi-qiang Liu

Subjects
*INDOLE derivatives, *RING formation (Chemistry), *SYMMETRY (Physics), *NONLINEAR optics, *CRYSTALLIZATION, *SPACE groups
Abstract

Severalcyclized indole derivatives have been synthesized, andtheir structures been determined. The C3-symmetric single-chiral N-phenyltriindole (Tr-Ph3)crystallized in the P1 space group, and the S4-symmetric saddle-like tetraindole (TTr) crystallizedin the I4̅ space group. The Tr-Ph3 and TTrcrystals exhibit remarkable powder SHG intensities 5 and 11 timesthat of KH2PO4(KDP), respectively. TTr is auseful octupolar core to build S4-symmetricmolecules and crystals for second-NLO materials. [ABSTRACT FROM AUTHOR]

Published
2015
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274. Activation Parameters for Additions to Alkenes of Arylchlorocarbenes with Enhanced Electrophilicity.

Author

Lei Wang, Krogh-Jespersen, Karsten, and Moss, Robert A.

Subjects
*ACTIVATION (Chemistry), *PHENYL compounds, *CARBENES, *TETRAMETHYL compounds, *CYCLOHEXENE, *HEXENE, *ENTHALPY
Abstract

Activation parameters are reported for additions of phenylchlorocarbene (PhCCl), pentafluorophenylchlorocarbene (F5-PhCCl), and 3,5-dinitrophenyl-chlorocarbene (3,5-DN-PhCCl) to tetramethylethylene (TME), cyclohexene, and 1-hexene. The order of activation enthalpies is F5-PhCCl > PhCCl > 3,5-DN-PhCCl. Activation enthalpies also increase as the degree of alkene alkylation decreases. In general, the entropies of activation increase in tandem with the enthalpies of activation. [ABSTRACT FROM AUTHOR]

Published
2015
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276. Highly Efficient Bioinspired Molecular Ru Water OxidationCatalysts with Negatively Charged Backbone Ligands.

Author

Lele Duan, Lei Wang, Fusheng Li, Fei Li, and Licheng Sun

Subjects
*OXYGEN-evolving complex (Photosynthesis), *OXIDATION of water, *OXYGEN in water, *LIGANDS (Chemistry), *CATALYSTS, *PHOTOSYNTHESIS
Abstract

The oxygen evolving complex (OEC) of the naturalphotosynthesis system II (PSII) oxidizes water to produce oxygen andreducing equivalents (protons and electrons). The oxygen releasedfrom PSII provides the oxygen source of our atmosphere; the reducingequivalents are used to reduce carbon dioxide to organic products,which support almost all organisms on the Earth planet. The firstphotosynthetic organisms able to split water were proposed to be cyanobacteria-likeones appearing ca. 2.5 billion years ago. Since then, nature has chosena sustainable way by using solar energy to develop itself. Inspiredby nature, human beings started to mimic the functions of the naturalphotosynthesis system and proposed the concept of artificial photosynthesis(AP) with the view to creating energy-sustainable societies and reducingthe impact on the Earth environments. Water oxidation is a highlyenergy demanding reaction and essential to produce reducing equivalentsfor fuel production, and thereby effective water oxidation catalysts(WOCs) are required to catalyze water oxidation and reduce the energyloss. [ABSTRACT FROM AUTHOR]

Published
2015
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280. Enhancement and Mitigation Mechanisms of Protein Fouling of Ultrafiltration Membranes under Different Ionic Strengths.

Author

Rui Miao, Lei Wang, Na Mi, Zhe Gao, Tingting Liu, Yongtao Lv, Xudong Wang, Xiaorong Meng, and Yongzhe Yang

Subjects
*IONIC strength, *PROTEIN analysis, *POLYVINYLIDENE fluoride, *SERUM albumin, *ULTRAFILTRATION
Abstract

To determine further the enhancement and mitigation mechanisms of protein fouling, filtration experiments were carried out with polyvinylidene fluoride (PVDF) ultrafiltration (UF) membranes and bovine serum albumin (BSA) over a range of ionic strengths. The interaction forces, the adsorption behavior of BSA on the membrane surface, and the structure of the BSA adsorbed layers at corresponding ionic strengths were investigated. Results indicate that when the ionic strength increased from 0 to 1 mM, there was a decrease in the PVDF-BSA and BSA-BSA electrostatic repulsion forces, resulting in a higher deposition rate of BSA onto the membrane surface, and the formation of a denser BSA layer; consequently, membrane fouling was enhanced. However, at ionic strengths of 10 and 100 mM, membrane fouling and the BSA removal rate decreased significantly. This was mainly due to the increased hydration repulsion forces, which caused a decrease in the PVDF-BSA and BSA-BSA interaction forces accompanied by a decreased hydrodynamic radius and increased diffusion coefficient of BSA. Consequently, BSA passed more easily through the membrane and into permeate. There was less accumulation of BSA on the membrane surface. A more nonrigid and open structure BSA layer was formed on the membrane surface. [ABSTRACT FROM AUTHOR]

Published
2015
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283. Atomistic Insight into Tetraalkylphosphonium-Bis(oxalato)borate Ionic Liquid/Water Mixtures. I. Local Microscopic Structure.

Author

Yong-Lei Wang, Sarman, Sten, Glavatskih, Sergei, Antzutkin, Oleg N., Rutland, Mark W., and Laaksonen, Aatto

Subjects
*PHOSPHONIUM compounds, *IONIC liquids, *AQUEOUS solutions, *BORATES, *HYDROGEN bonding, *HYDROPHILIC compounds
Abstract

Atomistic simulations have been performed to investigate the microscopic structural organization of aqueous solutions of trihexyltetradecylphosphonium bis(oxalato)borate ([P6,6,6,14][BOB]) ionic liquid (IL). The evolution of the microscopic liquid structure and the local ionic organization of IL/water mixtures as a function of the water concentration is visualized and systematically analyzed via radial and spatial distribution functions, coordination numbers, hydrogen bond network, and water clustering analysis. The microscopic liquid structure in neat IL is characterized by a connected apolar network composed of the alkyl chains of [P6,6,6,14] cations and isolated polar domains consisting of the central segments of [P6,6,6,14] cations and [BOB] anions, and the corresponding local ionic environment is described by direct contact ion pairs. In IL/water mixtures with lower water mole fractions, the added water molecules are dispersed and embedded in cavities between neighboring ionic species and the local ionic structure is characterized by solvent-shared ion pairs through cation-water-anion triple complexes. With a gradual increase in the water concentration in IL/water mixtures, the added water molecules tend to aggregate and form small clusters, intermediate chain-like structures, large aggregates, and eventually a water network in water concentrated simulation systems. A further progressive dilution of IL/water mixtures leads to the formation of self-organized micelle-like aggregates characterized by a hydrophobic core and hydrophilic shell consisting of the central polar segments in [P6,6,6,14] cations and [BOB] anions in a highly branched water network. The striking structural evolution of the [P6,6,6,14][BOB] IL/water mixtures is rationalized by the competition between favorable hydrogen bonded interactions and strong electrostatic interactions between the polar segments in ionic species and the dispersion interactions between the hydrophobic alkyl chains in [P6,6,6,14] cations. [ABSTRACT FROM AUTHOR]

Published
2015
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284. Excited State Dynamics and Isomerization in Ruthenium Sulfoxide Complexes.

Author

King, Albert W., Lei Wang, and Rack, Jeffrey J.

Subjects
*EXCITED state chemistry, *ISOMERIZATION, *MOLECULAR structure, *METAL complexes, *ELECTRONIC structure, *SULFOXIDES, *PHOTOCHROMIC materials, *RUTHENIUM compounds
Abstract

Conspectus: Molecular photochromic compounds are those that interconvert between two isomeric forms with light. The two isomeric forms display distinct electronic and molecular structures and must not be in equilibrium with one another. These light-activated molecular switch compounds have found wide application in areas of study ranging from chemical biology to materials science, where conversion from one isomeric form to another by light prompts a response in the environment (e.g., protein or polymeric material). Certain ruthenium and osmium polypyridine sulfoxide complexes are photochromic. The mode of action is a phototriggered isomerization of the sulfoxide from S- to O-bonded. The change in ligation drastically alters both the spectroscopic and electrochemical properties of the metal complex. Our laboratory has pioneered the preparation and study of these complexes. In particular, we have applied femtosecond pump-probe spectroscopy to reveal excited state details of the isomerization mechanism. The data from numerous complexes allowed us to predict that the isomerization was nonadiabatic in nature, defined as occurring from a S-bonded triplet excited state (primarily metal-to-ligand charge transfer in character) to an O-bonded singlet ground state potential energy surface. This prediction was corroborated by high-level density functional theory calculations. An intriguing aspect of this reactivity is the coupling of nuclear motion to the electronic wave function and how this coupling affects motions productive for isomerization. In an effort to learn more about this coupling, we designed a project to examine phototriggered isomerization in bis-sulfoxide complexes. The goal of these studies was to determine whether certain complexes could be designed in which a single photon excitation event would prompt two sulfoxide isomerizations. We employed chelating sulfoxides in this study and found that both the nature of the chelate ring and the R group on the sulfoxide affect the photochemical reactivity. For example, this reactivity may be tuned such that two sulfoxide ligands isomerize sequentially following two successive excitations or that two sulfoxide ligands isomerize following a single excitation. This Account explains our understanding to date of this photochemistry. [ABSTRACT FROM AUTHOR]

Published
2015
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286. Tantalum Nitride Nanorod Arrays: Introducing Ni–FeLayered Double Hydroxides as a Cocatalyst Strongly Stabilizing Photoanodesin Water Splitting.

Author

Lei Wang, Fabio Dionigi, Nhat Truong Nguyen, Robin Kirchgeorg, Manuel Gliech, Sabina Grigorescu, Peter Strasser, and Patrik Schmuki

Subjects
*TANTALUM compounds, *HYDROXIDES, *CATALYSIS, *ELECTRODES, *IRRADIATION
Abstract

Ta3N5nanostructuresare widely explored as anodesfor photoelectrochemical (PEC) water splitting. Although the materialshows excellent semiconductive properties for this purpose, the keychallenge is its severe photocorrosion when used in typical aqueousenvironments. In the present work we introduce a NiFe layered doublehydroxide (LDH) cocatalyst that dramatically reduces photocorrosioneffects. To fabricate the Ta3N5electrode, weuse through-template anodization of Ta and obtain oxide nanorod arraysthat then are converted to Ta3N5by high temperaturenitridation. After modification with our cocatalyst system, we obtainedsolar photocurrents of 6.3 mA cm–2at 1.23 VRHEin 1 M KOH, and an electrode maintains about 80% of theinitial activity for extended irradiation times. [ABSTRACT FROM AUTHOR]

Published
2015
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289. Sensitizer-Catalyst Assemblies for Water Oxidation.

Author

Lei Wang, Mirmohades, Mohammad, Brown, Allison, Duan, Lele, Fusheng Li, Daniel, Quentin, Lomoth, Reiner, Licheng Sun, and Hammarström, Leif

Subjects
*OXIDATION of water, *MOLECULAR association, *PHOTOSENSITIZERS, *POLYPYRIDINES, *RUTHENIUM compounds
Abstract

Two molecular assemblies with one Ru(II)-polypyridine photosensitizer covalently linked to one Ru(II)(bda)L2 catalyst (1) (bda = 2,2'-bipyridine-6,6'-dicarboxylate) and two photosensitizers covalently linked to one catalyst (2) have been prepared using a simple C-C bond as the linkage. In the presence of sodium persulfate as a sacrificial electron acceptor, both of them show high activity for catalytic water oxidation driven by visible light, with a turnover number up to 200 for 2. The linked photocatalysts show a lower initial yield for light driven oxygen evolution but a much better photostability compared to the three component system with separate sensitizer, catalyst and acceptor, leading to a much greater turnover number. Photocatalytic experiments and time-resolved spectroscopy were carried out to probe the mechanism of this catalysis. The linked catalyst in its Ru(II) state rapidly quenches the sensitizer, predominantly by energy transfer. However, a higher stability under photocatalytic condition is shown for the linked sensitizer compared to the three component system, which is attributed to kinetic stabilization by rapid photosensitizer regeneration. Strategies for employment of the sensitizer-catalyst molecules in more efficient photocatalytic systems are discussed. [ABSTRACT FROM AUTHOR]

Published
2015
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291. Synthesis of Unusual N-Acylated Aminosugar Fragments of Mycobacterium marinum Lipooligosaccharide IV.

Author

Lei Wang, Mengyao Dong, and Lowary, Todd L.

Subjects
*STEREOSELECTIVE reactions, *MONOSACCHARIDES, *LIPOOLIGOSACCHARIDES, *RING formation (Chemistry), *CHEMICAL synthesis
Abstract

A convergent strategy was developed for the stereoselective synthesis of four unusual N-acylated monosaccharides (5-8), which are fragments of lipooligosaccharide IV (LOS-IV) from Mycobacterium marinum. A critical substrate-controlled asymmetric cyclization of an amino acid derived oxazolidine provided a key lactam intermediate 11, which was successfully converted to targets 5-7. The key step in die synthesis of 8 was a one-pot cascade oxidation--cyclization--oxidation reaction of a Boc-protected amino alcohol, prepared from 3-butynol, which led to the formation of lactam 15. The five-membered ring lactam intermediates in these synthetic routes were sensitive to elimination side reactions, but careful manipulation of the reaction sequence allowed for the stereoselective synthesis of the targets. This work represents the first synthesis of these unusual motifs, which have been shown to be essential to the bioactivity of LOS-IV. [ABSTRACT FROM AUTHOR]

Published
2015
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293. Widespread Occurrence and Accumulation of Bisphenol A Diglycidyl Ether (BADGE), Bisphenol F Diglycidyl Ether (BFDGE) and Their Derivatives in Human Blood and Adipose Fat.

Author

Lei Wang, Jingchuan Xue, and Kannan, Kurunthachalam

Subjects
*BLOOD plasma, *ADIPOSE tissues, *BISPHENOL A diglycidyl ether, *EPOXY compound derivatives, *CHEMICAL derivatives
Abstract

Despite the widespread use of bisphenol A diglycidyl ether (BADGE) and bisphenol F diglycidyl ether (BFDGE) in various consumer products, studies on human exposure to these compounds are scarce. In this study, BADGE, BFDGE, and seven of their derivatives were determined in human adipose fat and blood plasma samples collected from New York City, NY. Bisphenol A bis (2,3-dihydroxypropyl) ether [BADGE-2H20 ] was the major BADGE derivative found in 60% of the adipose samples and 70% of the plasma samples analyzed. High concentrations and detection frequencies of BFDGE were found in both adipose and plasma samples. BFDGE concentrations in adipose fat ranged from 19.1 to 4500 ng/g wet weight A significant correlation between BADGE or BFDGE and their derivatives in adipose and plasma samples suggested hydration of these reactive compounds in humans. A significant positive correlation existed between BADGEs (i.e., the sum of BADGE and its five derivatives) and BFDGEs in adipose samples, which suggested similar exposure sources and pathways for these compounds in humans. Bisphenol A (BPA) also was analyzed in adipose fat and plasma, and its concentrations were positively correlated with those of BADGEs, which confirmed coexposure of BADGEs and BPA in humans. [ABSTRACT FROM AUTHOR]

Published
2015
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298. Quantifying Biased Response of Axon to Chemical Gradient Steepness in a Microfluidic Device.

Author

Rong-Rong Xiao, Lei Wang, Lin Zhang, Yu-Ning Liu, Xiao-Lei Yu, and Wei-Hua Huang

Subjects
*AXONS, *MICROFLUIDICS, *LAMININS, *EPHRINS, *NEURONS, *MICROFLUIDIC devices
Abstract

Axons are very sensitive to molecular gradients and can discriminate extremely small differences in gradient steepness. Microfluidic devices capable of generating chemical gradients and adjusting their steepness could be used to quantify the sensitivity of axonal response. Here, we present a versatile and robust microfluidic device that can generate substrate-bound molecular gradients with evenly varying steepness on a single chip to precisely quantify axonal response. In this device, two solutions are perfused into a central channel via two inlets while partially flowing into two peripheral channels through interconnecting grooves, which gradually decrease the fluid velocity along the central channel. Molecular gradients with evenly and gradually decreased steepness can therefore be generated with a high resolution that is less than 0.05%/mm. In addition, the overall distribution range and resolution of the gradient steepness can be highly and flexibly controlled by adjusting various parameters of the device. Using this device, we quantified the hippocampal axonal response to substrate-bound laminin and ephrin-A5 gradients with varying steepnesses. Our results provided more detailed information on how and to what extent different steepnesses guide hippocampal neuron development during the initial outgrowth. Furthermore, our results show that axons can sensitively respond to very shallow laminin and ephrin-A5 gradients, which could effectively initiate biased differentiation of hippocampal neurons in the steepness range investigated in this study. [ABSTRACT FROM AUTHOR]

Published
2014
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299. A Nanosized {Ag@Ag12} "Molecular Windmill" Templated by Polyoxometalates Anions.

Author

Lei Wang, Weiting Yang, Wei Zhu, Xingang Cuan, Zhigang Xie, and Zhong-Ming Sun

Subjects
*POLYOXOMETALATES, *SILVER ions, *ANIONS, *NANOPARTICLES, *CHEMICAL templates, *WINDMILLS
Abstract

Reaction of multidentate 5-(4-imidazol-1-yl-phenyl)-2H-tetrazole (L) ligand with Ag(I) ions in the existence of H3PW12O40 as anionic template under hydrothermal conditions results in tridecanuclear silver cluster-polyoxometalates hybrid: {Ag13L12}{PW12O40}4·30H2O (1). X-ray single crystal diffraction analysis indicates that the main structural feature of 1 is a nanosized molecular windmill-shaped polynuclear Ag cluster with intriguing {M@M12}-type cuboctahedral topology. The as-synthesized compound exhibits effective photocatalytic activity in the photodegradation of Rhodamine-B (RhB) and antibacterial activity against Escherichia coli, respectively. [ABSTRACT FROM AUTHOR]

Published
2014
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