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      Physicochemical Characterization of Functional Lignin–Silica Hybrid Fillers for Potential Application in Abrasive Tools

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          Abstract

          Functional lignin–SiO 2 hybrid fillers were prepared for potential application in binders for phenolic resins, and their chemical structure was characterized. The properties of these fillers and of composites obtained from them with phenolic resin were compared with those of systems with lignin or silica alone. The chemical structure of the materials was investigated by Fourier transform infrared spectroscopy (FT-IR) and carbon-13 nuclear magnetic resonance spectroscopy ( 13C CP MAS NMR). The thermal stability of the new functional fillers was examined by thermogravimetric analysis–mass spectrometry (TG-MS). Thermo-mechanical properties of the lignin–silica hybrids and resin systems were investigated by dynamic mechanical thermal analysis (DMTA). The DMTA results showed that abrasive composites with lignin–SiO 2 fillers have better thermo-mechanical properties than systems with silica alone. Thus, fillers based on lignin might provide new, promising properties for the abrasive industry, combining the good properties of lignin as a plasticizer and of silica as a filler improving mechanical properties.

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          Physico-chemical characterization of lignins from different sources for use in phenol-formaldehyde resin synthesis.

          C. Pena, A Tejado, I Mondragon (2007)
          During the last decades lignin has been investigated as a promising natural alternative to petrochemicals in phenol-formaldehyde (PF) resin production, due to their structural similarity. Physico-chemical characterization of three types of lignin, namely kraft pine lignin (L1), soda-anthraquinone flax lignin (L2), and ethanol-water wild tamarind lignin (L3) has been evaluated to determine which one is the most suitable chemical structure for above purpose. Characterization has been performed using Fourier transform infrared spectroscopy (FT-IR) and proton nuclear magnetic resonance spectrometry ((1)H NMR) to analyse the chemical structure, gel permeation chromatography (GPC) for determining molecular weight (MW) and molecular weight distribution (MWD), differential scanning calorimetry (DSC) to measure the glass transition temperature and thermogravimetric analysis (TGA) to follow the thermal degradation. Both structural and thermal characteristics suggest that kraft pine lignin (L1) would be a better phenol (P) substitute in the synthesis of lignin-phenol-formaldehyde (LPF) resins, as it presents higher amounts of activated free ring positions, higher MW and higher thermal decomposition temperature.
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            Recent Advances in Characterization of Lignin Polymer by Solution-State Nuclear Magnetic Resonance (NMR) Methodology

            Jia-Long Wen, Shao-Long Sun, Bai-Liang Xue (2013)
            The demand for efficient utilization of biomass induces a detailed analysis of the fundamental chemical structures of biomass, especially the complex structures of lignin polymers, which have long been recognized for their negative impact on biorefinery. Traditionally, it has been attempted to reveal the complicated and heterogeneous structure of lignin by a series of chemical analyses, such as thioacidolysis (TA), nitrobenzene oxidation (NBO), and derivatization followed by reductive cleavage (DFRC). Recent advances in nuclear magnetic resonance (NMR) technology undoubtedly have made solution-state NMR become the most widely used technique in structural characterization of lignin due to its versatility in illustrating structural features and structural transformations of lignin polymers. As one of the most promising diagnostic tools, NMR provides unambiguous evidence for specific structures as well as quantitative structural information. The recent advances in two-dimensional solution-state NMR techniques for structural analysis of lignin in isolated and whole cell wall states (in situ), as well as their applications are reviewed.
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              Nanopharmaceuticals (part 1): products on the market

              Volkmar Weissig, Tracy Pettinger, Nicole Murdock (2014)
              In 2000, the National Institute of Health launched the National Nanotechnology Initiative to support, coordinate, and advance research and development of nanoscale projects. The impact of this new program on health-science related research and development became quickly visible. Broad governmental financial support advanced the start of new, and the deepening of already existing, interdisciplinary research. The anticipated merger of nanoscience with medicine quickly instigated the conceptualization of nanomedicine. The adoption of nanoscience terminology by pharmaceutical scientists resulted in the advent of nanopharmaceuticals. The term “nano” became tantamount to “cutting-edge” and was quickly embraced by the pharmaceutical science community. Colloidal drug delivery systems reemerged as nanodrug delivery systems; colloidal gold became a suspension of nano gold particles. In this review, we first review nanoscience related definitions applied to pharmaceuticals, we then discuss all 43 currently approved drug formulations which are publicized as nanopharmaceuticals, and finally we analyze clinical aspects of selected drug formulations.
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                Author and article information

                Contributors
                Susana C. M. Fernandes: Role: Academic Editor
                Journal
                Journal ID (nlm-ta): Materials (Basel)
                Journal ID (iso-abbrev): Materials (Basel)
                Journal ID (publisher-id): materials
                Title: Materials
                Publisher: MDPI
                ISSN (Electronic): 1996-1944
                Publication date (Electronic): 25 June 2016
                Publication date Collection: July 2016
                Volume: 9
                Issue: 7
                Electronic Location Identifier: 517
                Affiliations
                [1 ]Faculty of Chemical Technology, Institute of Chemical Technology and Engineering, Poznan University of Technology, Berdychowo 4, Poznan PL-60965, Poland; lukasz.klapiszewski@ 123456put.poznan.pl (Ł.K.); artur.robert.jamrozik@ 123456gmail.com (A.J.); tadeusz.h.szalaty@ 123456doctorate.put.poznan.pl (T.J.S.); adam.voelkel@ 123456put.poznan.pl (A.V.)
                [2 ]Faculty of Construction Engineering and Management, Institute of Materials Technology, Poznan University of Technology, Piotrowo 3, Poznan PL-61138, Poland; danuta.matykiewicz@ 123456put.poznan.pl (D.M.); tomasz.sterzynski@ 123456put.poznan.pl (T.S.)
                Author notes
                [* ]Correspondence: beata.strzemiecka@ 123456put.poznan.pl (B.S.); teofil.jesionowski@ 123456put.poznan.pl (T.J.); Tel.: +48-61-665-37-23 (B.S.); +48-61-665-37-20 (T.J.)
                Article
                Publisher ID: materials-09-00517
                DOI: 10.3390/ma9070517
                PMC ID: 5456845
                SO-VID: aee2311e-fb70-4a24-9b57-de59764f64c7
                Copyright © © 2016 by the authors.
                License:

                Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC-BY) license ( http://creativecommons.org/licenses/by/4.0/).

                History
                Date received : 28 April 2016
                Date accepted : 20 June 2016
                Categories
                Subject: Article

                Keywords: lignin–silica fillers,lignin,phenolic resins,thermo-mechanical and physicochemical properties,abrasive tools
                Data availability:
                Keywords: lignin–silica fillers, lignin, phenolic resins, thermo-mechanical and physicochemical properties, abrasive tools

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