@article{AbouserieSchildeTaubert2018,
  author    = {Abouserie, Ahed and Schilde, Uwe and Taubert, Andreas},
  title     = {The crystal structure of N-butylpyridinium bis(μ2-dichlorido)-tetrachloridodicopper(II), C₁₈H₂₈N₂Cu₂Cl₆},
  series = {Zeitschrift f{\"u}r Kristallographie - New Crystal Structures},
  volume    = {233},
  journal   = {Zeitschrift f{\"u}r Kristallographie - New Crystal Structures},
  number    = {4},
  publisher = {de Gruyter},
  address   = {Berlin und M{\"u}nchen},
  issn      = {2194-4946},
  doi       = {10.1515/NCRS-2018-0099},
  pages     = {743 -- 746},
  year      = {2018},
  abstract  = {C₉H₁₄Cl₃CuN, monoclinic, P2₁/n (no. 14), a = 9.6625(6) {\AA}, b = 9.3486(3) {\AA}, c = 14.1168(8) {\AA}, β = 102.288(5)°, V = 1245.97(11) {\AA}³, Z = 4, Rgₜ(F) = 0.0182, wRᵣₑf(F²) = 0.0499, T = 210(2) K.},
  language  = {en}
}
@article{KirchheckerTroegerMuellerBakeetal.2015,
  author    = {Kirchhecker, Sarah and Tr{\"o}ger-M{\"u}ller, Steffen and Bake, Sebastian and Antonietti, Markus and Taubert, Andreas and Esposito, Davide},
  title     = {Renewable pyridinium ionic liquids from the continuous hydrothermal decarboxylation of furfural-amino acid derived pyridinium zwitterions},
  series = {Green chemistry : an international journal and green chemistry resource},
  volume    = {17},
  journal   = {Green chemistry : an international journal and green chemistry resource},
  number    = {8},
  publisher = {Royal Society of Chemistry},
  address   = {Cambridge},
  issn      = {1463-9262},
  doi       = {10.1039/c5gc00913h},
  pages     = {4151 -- 4156},
  year      = {2015},
  abstract  = {Fully renewable pyridinium ionic liquids were synthesised via the hydrothermal decarboxylation of pyridinium zwitterions derived from furfural and amino acids in flow. The functionality of the resulting ionic liquid (IL) can be tuned by choice of different amino acids as well as different natural carboxylic acids as the counter-ions. A representative member of this new class of ionic liquids was successfully used for the synthesis of ionogels and as a solvent for the Heck coupling.},
  language  = {en}
}
@article{GoebelStoltenbergKrehletal.2016,
  author    = {G{\"o}bel, Ronald and Stoltenberg, Marcus and Krehl, Stefan and Biolley, Christine and Rothe, Regina and Schmidt, Bernd and Hesemann, Peter and Taubert, Andreas},
  title     = {A Modular Approach towards Mesoporous Silica Monoliths with Organically Modified Pore Walls: Nucleophilic Addition, Olefin Metathesis, and Cycloaddition},
  series = {European journal of inorganic chemistry : a journal of ChemPubSoc Europe},
  volume    = {6},
  journal   = {European journal of inorganic chemistry : a journal of ChemPubSoc Europe},
  publisher = {Wiley-VCH},
  address   = {Weinheim},
  issn      = {1434-1948},
  doi       = {10.1002/ejic.201500638},
  pages     = {2088 -- 2099},
  year      = {2016},
  abstract  = {We have synthesized mesoporous silica (monoliths) with defined surface chemistry by means of a number of addition reactions: (i) coupling of an isocyanate to a surface-immobilized thiol, (ii) addition of an epoxide to a surface-immobilized thiol, (iii) cross-metathesis between two olefins, and (iv) Huisgen [2+3] cycloaddition of an alkyne-functionalized silica monolith with an azide. Functionalization of the mesopores was observed, but there are significant differences between individual approaches. Isocyanate and epoxide additions lead to high degrees of functionalization, whereas olefin metathesis and [2+3] cycloaddition are less effective. We further show that the efficiency of the modification is about twice as high in mesoporous silica particles than in macroscopic silica monoliths.},
  language  = {en}
}
@article{ZehbeKolloscheLardongetal.2016,
  author    = {Zehbe, Kerstin and Kollosche, Matthias and Lardong, Sebastian and Kelling, Alexandra and Schilde, Uwe and Taubert, Andreas},
  title     = {Ionogels Based on Poly(methyl methacrylate) and Metal-Containing Ionic Liquids: Correlation between Structure and Mechanical and Electrical Properties},
  series = {International journal of molecular sciences},
  volume    = {17},
  journal   = {International journal of molecular sciences},
  publisher = {MDPI},
  address   = {Basel},
  issn      = {1422-0067},
  doi       = {10.3390/ijms17030391},
  pages     = {16},
  year      = {2016},
  abstract  = {Ionogels (IGs) based on poly(methyl methacrylate) (PMMA) and the metal-containing ionic liquids (ILs) bis-1-butyl-3-methlimidazolium tetrachloridocuprate(II), tetrachloride cobaltate(II), and tetrachlorido manganate(II) have been synthesized and their mechanical and electrical properties have been correlated with their microstructure. Unlike many previous examples, the current IGs show a decreasing stability in stress-strain experiments on increasing IL fractions. The conductivities of the current IGs are lower than those observed in similar examples in the literature. Both effects are caused by a two-phase structure with micrometer-sized IL-rich domains homogeneously dispersed an IL-deficient continuous PMMA phase. This study demonstrates that the IL-polymer miscibility and the morphology of the IGs are key parameters to control the (macroscopic) properties of IGs.},
  language  = {en}
}
@article{ZhangWillaSunetal.2017,
  author    = {Zhang, Weiyi and Willa, Christoph and Sun, Jian-Ke and Guterman, Ryan and Taubert, Andreas and Yuan, Jiayin},
  title     = {Polytriazolium poly(ionic liquid) bearing triiodide anions: Synthesis, basic properties and electrochemical behaviors},
  series = {Polymer : the international journal for the science and technology of polymers},
  volume    = {124},
  journal   = {Polymer : the international journal for the science and technology of polymers},
  publisher = {Elsevier},
  address   = {Oxford},
  issn      = {0032-3861},
  doi       = {10.1016/j.polymer.2017.07.059},
  pages     = {246 -- 251},
  year      = {2017},
  abstract  = {4-Methyl-1-vinyl-1,2,4-triazolium triiodide ionic liquid and its polymer poly(4-methyl-1-vinyl-1,2,4-triazolium) triiodide were prepared for the first time from their iodide precursors via the reaction of iodide (I-) with elemental iodine (I-2). The change from iodide to triiodide (I-3(-)) was found to introduce particular variations in the physical properties of these two compounds, including lower melting point/glass transition temperature and altered solubility. The compounds were characterized by single-crystal X-ray diffraction, elemental analysis, and their electrochemical properties examined in solution and in the solid-state. Compared with their iodide analogues, the triiodide salts exhibited lower electrical impedance and higher current in the cyclic voltammetry. We found that poly(4-methyl-1,2,4-triazolium triiodide) was proven to be a promising solid polymer electrolyte candidate. (C) 2017 Elsevier Ltd. All rights reserved.},
  language  = {en}
}
@article{HentrichTaabacheBrezesinskietal.2017,
  author    = {Hentrich, Doreen and Taabache, Soraya and Brezesinski, Gerald and Lange, Nele and Unger, Wolfgang and Kuebel, Christian and Bertin, Annabelle and Taubert, Andreas},
  title     = {A Dendritic Amphiphile for Efficient Control of Biomimetic Calcium Phosphate Mineralization},
  series = {Macromolecular bioscience},
  volume    = {17},
  journal   = {Macromolecular bioscience},
  publisher = {Wiley-VCH},
  address   = {Weinheim},
  issn      = {1616-5187},
  doi       = {10.1002/mabi.201600524},
  pages     = {2541 -- 2548},
  year      = {2017},
  abstract  = {The phase behavior of a dendritic amphiphile containing a Newkome-type dendron as the hydrophilic moiety and a cholesterol unit as the hydrophobic segment is investigated at the air-liquid interface. The amphiphile forms stable monomolecular films at the airliquid interface on different subphases. Furthermore, the mineralization of calcium phosphate beneath the monolayer at different calcium and phosphate concentrations versus mineralization time shows that at low calcium and phosphate concentrations needles form, whereas flakes and spheres dominate at higher concentrations. Energy-dispersive X-ray spectroscopy, X-ray photoelectron spectroscopy, and electron diffraction confirm the formation of calcium phosphate. High-resolution transmission electron microscopy and electron diffraction confirm the predominant formation of octacalcium phosphate and hydroxyapatite. The data also indicate that the final products form via a complex multistep reaction, including an association step, where nano-needles aggregate into larger flake-like objects.},
  language  = {en}
}
@article{HentrichBrezesinskiKuebeletal.2017,
  author    = {Hentrich, Doreen and Brezesinski, Gerald and Kuebel, Christian and Bruns, Michael and Taubert, Andreas},
  title     = {Cholesteryl Hemisuccinate Monolayers Efficiently Control Calcium Phosphate Nucleation and Growth},
  series = {Crystal growth \& design : integrating the fields of crystal engineering and crystal growth for the synthesis and applications of new materials},
  volume    = {17},
  journal   = {Crystal growth \& design : integrating the fields of crystal engineering and crystal growth for the synthesis and applications of new materials},
  publisher = {American Chemical Society},
  address   = {Washington},
  issn      = {1528-7483},
  doi       = {10.1021/acs.cgd.7b00753},
  pages     = {5764 -- 5774},
  year      = {2017},
  abstract  = {The article describes the phase behavior of cholesteryl hemisuccinate at the air-liquid interface and its effect on calcium phosphate (CP) mineralization. The amphiphile forms stable monolayers with phase transitions at the air-liquid interface from a gas to a tilted liquid-condensed (TLC) and finally to an untilted liquid-condensed (ULC) phase. CP mineralization beneath these monolayers leads to crumpled CP layers made from individual plates. The main crystal phase is octacalcium phosphate (OCP) along with a minor fraction of hydroxyapatite (HAP), as confirmed by X-ray photoelectron spectroscopy, energy dispersive X-ray spectroscopy, bright field transmission electron microscopy, and electron diffraction.},
  language  = {en}
}
@article{PehLiedelTaubertetal.2017,
  author    = {Peh, Eddie and Liedel, Clemens and Taubert, Andreas and Tauer, Klaus},
  title     = {Composition inversion to form calcium carbonate mixtures},
  series = {CrystEngComm},
  volume    = {19},
  journal   = {CrystEngComm},
  publisher = {Royal Society of Chemistry},
  address   = {Cambridge},
  issn      = {1466-8033},
  doi       = {10.1039/c7ce00433h},
  pages     = {3573 -- 3583},
  year      = {2017},
  abstract  = {Composition inversion takes place in equimolar solid mixtures of sodium or ammonium carbonate and calcium chloride with respect to the combination of anions and cations leading to the corresponding chloride and calcite in complete conversion. The transformation takes place spontaneously under a variety of different situations, even in a powdery mixture resting under ambient conditions. Powder X-ray diffraction data and scanning electron microscopy micrographs are presented to describe the course of the reaction and to characterize the reaction products. The incomplete reaction in the interspace between two compressed tablets of pure starting materials leads to an electric potential due to the presence of uncompensated charges.},
  language  = {en}
}
@misc{deZeaBermudezLerouxRabuetal.2017,
  author    = {de Zea Bermudez, Veronica and Leroux, Fabrice and Rabu, Pierre and Taubert, Andreas},
  title     = {Hybrid nanomaterials: from the laboratory to the market},
  series = {Beilstein journal of nanotechnology},
  volume    = {8},
  journal   = {Beilstein journal of nanotechnology},
  publisher = {Beilstein-Institut zur F{\"o}rderung der Chemischen Wissenschaften},
  address   = {Frankfurt, Main},
  issn      = {2190-4286},
  doi       = {10.3762/bjnano.8.87},
  pages     = {861 -- 862},
  year      = {2017},
  language  = {en}
}
@misc{SchneiderGuenterTaubert2018,
  author    = {Schneider, Matthias and G{\"u}nter, Christina and Taubert, Andreas},
  title     = {Co-deposition of a hydrogel/calcium phosphate hybrid layer on 3D printed poly(lactic acid) scaffolds via dip coating},
  series = {Postprints der Universit{\"a}t Potsdam : Mathematisch-Naturwissenschaftliche Reihe},
  journal   = {Postprints der Universit{\"a}t Potsdam : Mathematisch-Naturwissenschaftliche Reihe},
  number    = {1057},
  issn      = {1866-8372},
  doi       = {10.25932/publishup-47442},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus4-474427},
  pages     = {21},
  year      = {2018},
  abstract  = {The article describes the surface modification of 3D printed poly(lactic acid) (PLA) scaffolds with calcium phosphate (CP)/gelatin and CP/chitosan hybrid coating layers. The presence of gelatin or chitosan significantly enhances CP co-deposition and adhesion of the mineral layer on the PLA scaffolds. The hydrogel/CP coating layers are fairly thick and the mineral is a mixture of brushite, octacalcium phosphate, and hydroxyapatite. Mineral formation is uniform throughout the printed architectures and all steps (printing, hydrogel deposition, and mineralization) are in principle amenable to automatization. Overall, the process reported here therefore has a high application potential for the controlled synthesis of biomimetic coatings on polymeric biomaterials.},
  language  = {en}
}