Hybrid polydimethylsiloxane-zirconium oxo nanocomposites. Part 1 Characterization of the matrix and the siloxane-zirconium oxo interface
Journal of Materials Chemistry Pub Date: DOI: 10.1039/A807310D
Abstract
Hybrid materials made from polydimethylsiloxane and zirconium oxo species have been synthesized. They exhibit a high degree of homogeneity and dispersion for Zr/Si molar ratios ranging between 0.2 and 0.9. These hybrid materials show good mechanical integrity and transparency. They have been characterized by
29
Si,
17
O and
13
C MAS-NMR as well as FTIR, SAXS and dynamic mechanical analysis (DMA). These polydimethylsiloxane/zirconium oxopolymers are hybrids which consist of amorphous zirconium oxo domains of about one to two nanometers in diameter. The mean corrrelation distance between the zirconium–oxo domains decreases from about 6 to 2?nm when the Zr/Si ratio increases. The siloxane species (chains and loops) have an average chain length that decreases from approximatively 15-20 silicon atoms to 3 silicon atoms with increasing zirconium content. The interface between siloxane and zirconium oxo domains is composed primarily of Zr-O-Si(CH
3
)
2
bonds and hydrogen bonds, their relative proportion being a function of the zirconium content. The curing of these hybrid materials at 140?°C completes consolidation of the hybrid network, without affecting the overall characteristics of the organic-inorganic interface. Curing at 200?°C induces the loss of small silicic species and the increase of cross-linking points in the siloxane regions. For samples with a high zirconium content (Zr/Si=0.9) curing at 200?°C also induces an increase in the number of the Zr-O-Si interface bonds.
Recommended Literature
- [1] Dissolved oxygen sensor based on fluorescence quenching of oxygen-sensitive ruthenium complexes immobilized in sol–gel-derived porous silica coatings Analyst, 1996,121, 785-788 10.1039/AN9962100785
- [2] Fast-pulsing NMR techniques for the detection of weak interactions: successful natural abundance probe of hydrogen bonds in peptides? Amandine Altmayer-Henzien,Valérie Declerck,David J. Aitken,Ewen Lescop,Denis Merlet,Jonathan FarjonOrg. Biomol. Chem., 2013,11, 7611-7615 10.1039/C3OB41876F
- [3] Distinction of trans–cis photoisomers with comparable optical properties in multiple-state photochromic systems – examining a molecule with three azobenzenes via in situ irradiation NMR spectroscopy? Jonas Kind,Lukas Kaltschnee,Martin Leyendecker,Christina M. ThieleChem. Commun., 2016,52, 12506-12509 10.1039/C6CC06771A
- [4] Evolutionary de novo design of phenothiazine derivatives for dye-sensitized solar cells? Vishwesh Venkatraman,Marco Foscato,Vidar R. Jensen,Bj?rn K?re AlsbergJ. Mater. Chem. A, 2015,3, 9851-9860 10.1039/C5TA00625B
- [5] Emulsion technologies for multicellular tumour spheroid radiation assays? Kay S. McMillan,Anthony G. McCluskey,Annette Sorensen,Marie Boyd,Michele ZagnoniAnalyst, 2016,141, 100-110 10.1039/C5AN01382H
- [6] Emerging investigator series: first-principles and thermodynamics comparison of compositionally-tuned delafossites: cation release from the (001) surface of complex metal oxides? Joseph W. Bennett,Diamond T. Jones,Blake G. Hudson,Joshua Melendez-Rivera,Robert J. Hamers,Sara E. MasonEnviron. Sci.: Nano, 2020,7, 1642-1651 10.1039/C9EN01304K
- [7] Evolution of shape, size, and areal density of a single plane of Si nanocrystals embedded in SiO2 matrix studied by atom probe tomography Bin Han,Yasuo Shimizu,Gabriele Seguini,Celia Castro,Gérard Ben Assayag,Koji Inoue,Yasuyoshi Nagai,Sylvie Schamm-Chardon,Michele PeregoRSC Adv., 2016,6, 3617-3622 10.1039/C5RA26710B
- [8] Enabling chloride salts for thermal energy storage: implications of salt purity? J. Matthew Kurley,Phillip W. Halstenberg,Abbey McAlister,Stephen Raiman,Richard T. MayesRSC Adv., 2019,9, 25602-25608 10.1039/C9RA03133B
- [9] Estimating and correcting interference fringes in infrared spectra in infrared hyperspectral imaging Ghazal Azarfar,Ebrahim Aboualizadeh,Nicholas M. Walter,Simona Ratti,Camilla Olivieri,Alessandra Norici,Michael Nasse,Achim Kohler,Mario GiordanoAnalyst, 2018,143, 4674-4683 10.1039/C8AN00093J
- [10] Esterase-responsive polymeric prodrug-based tumor targeting nanoparticles for improved anti-tumor performance against colon cancer? Gang Pan,Yi-jie Bao,Jie Xu,Tao Liu,Cheng Liu,Yan-yan Qiu,Xiao-jing Shi,Hui Yu,Ting-ting Jia,Xia Yuan,Ze-ting Yuan,Yi-jun CaoRSC Adv., 2016,6, 42109-42119 10.1039/C6RA05236C
Journal Name:Journal of Materials Chemistry
research_products
-
CAS no.: 89640-58-4
![1,2,3,4,5,6-Hexahydro-[2,3]bipyridinyl-6-ol](https://ossimg.kuujia.com/scimg/1271000/1270529-38-8x500.png)
![N-(3-cyanothiolan-3-yl)-2-[(2,2,2-trifluoroethyl)sulfanyl]pyridine-4-carboxamide](https://ossimg.kuujia.com/scimg/1444500/1444113-98-7x500.png)
![2,2-Difluoro-3-[methyl(2-methylbutyl)amino]propanoic acid](https://ossimg.kuujia.com/scimg/2138500/2138166-62-6x500.png)
![2-(1H-indol-3-yl)-N-{[6-(thiophen-2-yl)-[1,2,4]triazolo[4,3-b]pyridazin-3-yl]methyl}acetamide](https://ossimg.kuujia.com/scimg/2034500/2034271-14-0x500.png)