497 research outputs found
Bidentate N,O-prolinate ruthenium benzylidene catalyst highly active in RCM of disubstituted dienes
The synthesis of a bidentate N,O-prolinate ruthenium benzylidene from commercially available starting materials and its activity in ring-closing metathesis of functionalized disubstituted dienes at 30 °C is disclosed
Consequential life cycle assessment of kraft lignin recovery with chemical recycling
: The recovery of kraft lignin from black liquor allows an increasing of the pulp production of a kraft mill (marginal tonnage) and at the same time provide a valuable material that can be used as energy or chemical feedstock. However, because lignin precipitation is an energy- and material-consuming process, the environmental consequences from a life cycle perspective are under discourse. The aim of this study is to investigate, through the application of consequential life cycle assessment, the potential environmental benefits of kraft lignin recovery and its subsequent use as an energy or chemical feedstock. A newly developed chemical recovery strategy was assessed. The results revealed how the use of lignin as energy feedstock is not environmentally advantageous compared to producing energy directly from the pulp mill's recovery boiler. However, the best results were observed when lignin was used as a chemical feedstock in four applications to replace bitumen, carbon black, phenol, and bisphenol-A
Zeolite-Assisted Lignin-First Fractionation of Lignocellulose: Overcoming Lignin Recondensation through Shape-Selective Catalysis
This is the peer reviewed version of the following article: E. Subbotina, A. Velty, J. S. M. Samec, A. Corma, ChemSusChem 2020, 13, 4528, which has been published in final form at https://doi.org/10.1002/cssc.202000330. This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for Self-Archiving.[EN] Organosolv pulping releases reactive monomers from both lignin and hemicellulose by the cleavage of weak C-O bonds. These monomers recombine to form undesired polymers through the formation of recalcitrant C-C bonds. Different strategies have been developed to prevent this process by stabilizing the reactive monomers (i.e., lignin-first approaches). To date, all reported approaches rely on the addition of capping agents or metal-catalyzed stabilization reactions, which usually require high pressures of hydrogen gas. Herein, a metal- and additive-free approach is reported that uses zeolites as acid catalysts to convert the reactive monomers into more stable derivatives under organosolv pulping conditions. Experiments with model lignin compounds showed that the recondensation of aldehydes and allylic alcohols produced by the cleavage of beta-O-4 ' bonds was efficiently inhibited by the use of protonic beta zeolite. By applying a zeolite with a preferred pore size, the bimolecular reactions of reactive monomers were effectively inhibited, resulting in stable and valuable monophenolics. The developed methodology was further extended to birch wood to yield monophenolic compounds and value-added products from carbohydrates.This work was supported by the Swedish Energy Agency, Stiftelsen Olle Engkvist Byggm~stare, and the European Union through ERC-AdG-2014-671093-SynCatMatch.Subbotina, E.; Velty, A.; Samec, JSM.; Corma Canós, A. (2020). Zeolite-Assisted Lignin-First Fractionation of Lignocellulose: Overcoming Lignin Recondensation through Shape-Selective Catalysis. ChemSusChem. 13(17):4528-4536. https://doi.org/10.1002/cssc.202000330S452845361317Adler, E. (1977). Lignin chemistry?past, present and future. Wood Science and Technology, 11(3), 169-218. doi:10.1007/bf00365615Galkin, M. V., & Samec, J. S. M. (2016). Lignin Valorization through Catalytic Lignocellulose Fractionation: A Fundamental Platform for the Future Biorefinery. ChemSusChem, 9(13), 1544-1558. doi:10.1002/cssc.201600237Schutyser, W., Renders, T., Van den Bosch, S., Koelewijn, S.-F., Beckham, G. T., & Sels, B. F. (2018). Chemicals from lignin: an interplay of lignocellulose fractionation, depolymerisation, and upgrading. Chemical Society Reviews, 47(3), 852-908. doi:10.1039/c7cs00566kSun, Z., Fridrich, B., de Santi, A., Elangovan, S., & Barta, K. (2018). Bright Side of Lignin Depolymerization: Toward New Platform Chemicals. Chemical Reviews, 118(2), 614-678. doi:10.1021/acs.chemrev.7b00588Sturgeon, M. R., Kim, S., Lawrence, K., Paton, R. S., Chmely, S. C., Nimlos, M., … Beckham, G. T. (2013). A Mechanistic Investigation of Acid-Catalyzed Cleavage of Aryl-Ether Linkages: Implications for Lignin Depolymerization in Acidic Environments. ACS Sustainable Chemistry & Engineering, 2(3), 472-485. doi:10.1021/sc400384wShuai, L., Amiri, M. T., Questell-Santiago, Y. M., Héroguel, F., Li, Y., Kim, H., … Luterbacher, J. S. (2016). Formaldehyde stabilization facilitates lignin monomer production during biomass depolymerization. Science, 354(6310), 329-333. doi:10.1126/science.aaf7810Questell-Santiago, Y. M., Zambrano-Varela, R., Talebi Amiri, M., & Luterbacher, J. S. (2018). Carbohydrate stabilization extends the kinetic limits of chemical polysaccharide depolymerization. Nature Chemistry, 10(12), 1222-1228. doi:10.1038/s41557-018-0134-4Deuss, P. J., Scott, M., Tran, F., Westwood, N. J., de Vries, J. G., & Barta, K. (2015). Aromatic Monomers by in Situ Conversion of Reactive Intermediates in the Acid-Catalyzed Depolymerization of Lignin. Journal of the American Chemical Society, 137(23), 7456-7467. doi:10.1021/jacs.5b03693Lahive, C. W., Deuss, P. J., Lancefield, C. S., Sun, Z., Cordes, D. B., Young, C. M., … Barta, K. (2016). Advanced Model Compounds for Understanding Acid-Catalyzed Lignin Depolymerization: Identification of Renewable Aromatics and a Lignin-Derived Solvent. Journal of the American Chemical Society, 138(28), 8900-8911. doi:10.1021/jacs.6b04144Barta, K., & Ford, P. C. (2014). Catalytic Conversion of Nonfood Woody Biomass Solids to Organic Liquids. Accounts of Chemical Research, 47(5), 1503-1512. doi:10.1021/ar4002894Deuss, P. J., Lahive, C. W., Lancefield, C. S., Westwood, N. J., Kamer, P. C. J., Barta, K., & de Vries, J. G. (2016). Metal Triflates for the Production of Aromatics from Lignin. ChemSusChem, 9(20), 2974-2981. doi:10.1002/cssc.201600831Kaiho, A., Kogo, M., Sakai, R., Saito, K., & Watanabe, T. (2015). In situ trapping of enol intermediates with alcohol during acid-catalysed de-polymerisation of lignin in a nonpolar solvent. Green Chemistry, 17(5), 2780-2783. doi:10.1039/c5gc00130gJastrzebski, R., Constant, S., Lancefield, C. S., Westwood, N. J., Weckhuysen, B. M., & Bruijnincx, P. C. A. (2016). Tandem Catalytic Depolymerization of Lignin by Water-Tolerant Lewis Acids and Rhodium Complexes. ChemSusChem, 9(16), 2074-2079. doi:10.1002/cssc.201600683Zhang, L., Xi, G., Yu, K., Yu, H., & Wang, X. (2017). Furfural production from biomass–derived carbohydrates and lignocellulosic residues via heterogeneous acid catalysts. Industrial Crops and Products, 98, 68-75. doi:10.1016/j.indcrop.2017.01.014Anderson, E. M., Stone, M. L., Katahira, R., Reed, M., Beckham, G. T., & Román-Leshkov, Y. (2017). Flowthrough Reductive Catalytic Fractionation of Biomass. Joule, 1(3), 613-622. doi:10.1016/j.joule.2017.10.004Kumaniaev, I., Subbotina, E., Sävmarker, J., Larhed, M., Galkin, M. V., & Samec, J. S. M. (2017). Lignin depolymerization to monophenolic compounds in a flow-through system. Green Chemistry, 19(24), 5767-5771. doi:10.1039/c7gc02731aVan den Bosch, S., Renders, T., Kennis, S., Koelewijn, S.-F., Van den Bossche, G., Vangeel, T., … Sels, B. F. (2017). Integrating lignin valorization and bio-ethanol production: on the role of Ni-Al2O3catalyst pellets during lignin-first fractionation. Green Chemistry, 19(14), 3313-3326. doi:10.1039/c7gc01324hDusselier, M., Van Wouwe, P., Dewaele, A., Jacobs, P. A., & Sels, B. F. (2015). Shape-selective zeolite catalysis for bioplastics production. Science, 349(6243), 78-80. doi:10.1126/science.aaa7169Zhang, L., Xi, G., Chen, Z., Jiang, D., Yu, H., & Wang, X. (2017). Highly selective conversion of glucose into furfural over modified zeolites. Chemical Engineering Journal, 307, 868-876. doi:10.1016/j.cej.2016.09.001Cui, J., Tan, J., Deng, T., Cui, X., Zhu, Y., & Li, Y. (2016). Conversion of carbohydrates to furfural via selective cleavage of the carbon–carbon bond: the cooperative effects of zeolite and solvent. Green Chemistry, 18(6), 1619-1624. doi:10.1039/c5gc01948
A Salt Metathesis Route To Ruthenium Carbene Complex Isomers With Pyridine Dicarboxamide-Derived Chelate Pincer Ligands
Reaction of the doubly deprotonated pyridine 2,6-dicarboxamido ligand (1) with (PCy_3)_2Cl_2 Ru=CHPh (3a) in THF gave a mixture of (lig)(PCy_3)Ru=CHPh isomers (4). The pentane soluble N,N,O-4 isomer was isolated by extraction and characterized by X-ray diffraction. The O,N, O-4 isomer was identified in the residue. Single crystals of the closely related complex (lig)(NHC) Ru=CHPh, O,N,O-5, were obtained from the reaction of 1 with (NHC)(PCy_3)Cl_2Ru=CHPh (3b) and used for the X-ray crystal structure analysis of the system
A role for suppressed thermogenesis favoring catch-up fat in the pathophysiology of catch-up growth
Catch-up growth is a risk factor for later obesity, type 2
diabetes, and cardiovascular diseases. We show here
that after growth arrest by semistarvation, rats refed
the same amount of a low-fat diet as controls show 1)
lower energy expenditure due to diminished thermogenesis
that favors accelerated fat deposition or catch-up
fat and 2) normal glucose tolerance but higher plasma
insulin after a glucose load at a time point when their
body fat and plasma free fatty acids (FFAs) have not
exceeded those of controls. Isocaloric refeeding on a
high-fat diet resulted in even lower energy expenditure
and thermogenesis and increased fat deposition and
led to even higher plasma insulin and elevated plasma
glucose after a glucose load. Stepwise regression analysis
showed that plasma insulin and insulin-to-glucose
ratio after the glucose load are predicted by variations
in efficiency of energy use (i.e., in thermogenesis)
rather than by the absolute amount of body fat or
plasma FFAs. These studies suggest that suppression of
thermogenesis per se may have a primary role in the
development of hyperinsulinemia and insulin resistance
during catch-up growth and underscore a role for suppressed
thermogenesis directed specifically at catch-up
fat in the link between catch-up growth and chronic
metabolic diseases
Advanced radiometric and interferometric milimeter-wave scene simulations
Smart munitions and weapons utilize various imaging sensors (including passive IR, active and passive millimeter-wave, and visible wavebands) to detect/identify targets at short standoff ranges and in varied terrain backgrounds. In order to design and evaluate these sensors under a variety of conditions, a high-fidelity scene simulation capability is necessary. Such a capability for passive millimeter-wave scene simulation exists at TRW. TRW's Advanced Radiometric Millimeter-Wave Scene Simulation (ARMSS) code is a rigorous, benchmarked, end-to-end passive millimeter-wave scene simulation code for interpreting millimeter-wave data, establishing scene signatures and evaluating sensor performance. In passive millimeter-wave imaging, resolution is limited due to wavelength and aperture size. Where high resolution is required, the utility of passive millimeter-wave imaging is confined to short ranges. Recent developments in interferometry have made possible high resolution applications on military platforms. Interferometry or synthetic aperture radiometry allows the creation of a high resolution image with a sparsely filled aperture. Borrowing from research work in radio astronomy, we have developed and tested at TRW scene reconstruction algorithms that allow the recovery of the scene from a relatively small number of spatial frequency components. In this paper, the TRW modeling capability is described and numerical results are presented
SS Ari: a shallow-contact close binary system
Two CCD epochs of light minimum and a complete R light curve of SS Ari are
presented. The light curve obtained in 2007 was analyzed with the 2003 version
of the W-D code. It is shown that SS Ari is a shallow contact binary system
with a mass ratio and a degree of contact factor f=9.4(\pm0.8%). A
period investigation based on all available data shows that there may exist two
distinct solutions about the assumed third body. One, assuming eccentric orbit
of the third body and constant orbital period of the eclipsing pair results in
a massive third body with and P_3=87.00.278M_{\odot}$. Both of the cases
suggest the presence of an unseen third component in the system.Comment: 28 pages, 9 figures and 5 table
Environmental evolution and archaeological record of Barrancas river basin, Jujuy province, Argentina
Since 2012 our research team started the “Barrancas Archaeological Project” which main goal is to study the history of the people that dwelled this locality and neighbouring areas during the last 10000 years and yo put in value the cultural heritage of these societies. This paper have two aims: 1) to characterize the general environmental evolution of the Barrancas river basin since the end of Pleistocene and to discuss its impact on the human groups that used it: and 2) to briefly describe the archaeological record recovered in the upper and mid-section of the Barrancas river, mainly the chronology and general characteristics of the archaeological sites under study and the relative chronology and placement of the currently documented rock art. Barrancas archaeological evidence conjoined with the paleoenvironmental data obtained in this basin shows that substantial changes in local habitats have had a relevant role in the way in what human groups used this spaces through time, allowing to characterize them alternatively as a nodal or inter-nodal area through Holocene.Introducción El área de estudio - Antecedentes paleoambientales suprarregionales y regionales Evolución ambiental de Barrancas - Los registros paleoambientales de Barrancas - Tendencias paleoambientales - Evolución de la capacidad de carga en la cuenca desde los 7300 cal AP Síntesis de los sitios arqueológicos y ocupaciones humanas en Barrancas - Ocupaciones humanas del Holoceno Temprano y Medio (10.000-3750 años cal. AP) - Ocupaciones humanas entre 3500-1550 años cal. AP - Ocupaciones humanas ente 1200 y 200 cal AP - Manifestaciones rupestres Discusión y Conclusió
A Salt Metathesis Route To Ruthenium Carbene Complex Isomers With Pyridine Dicarboxamide-Derived Chelate Pincer Ligands
Reaction of the doubly deprotonated pyridine 2,6-dicarboxamido ligand (1) with (PCy_3)_2Cl_2 Ru=CHPh (3a) in THF gave a mixture of (lig)(PCy_3)Ru=CHPh isomers (4). The pentane soluble N,N,O-4 isomer was isolated by extraction and characterized by X-ray diffraction. The O,N, O-4 isomer was identified in the residue. Single crystals of the closely related complex (lig)(NHC) Ru=CHPh, O,N,O-5, were obtained from the reaction of 1 with (NHC)(PCy_3)Cl_2Ru=CHPh (3b) and used for the X-ray crystal structure analysis of the system
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