Selected ETH Polymer Physics publications

All All Article Preprint Proc Report Thesis Book Book Review Patent Review Project All latest All 2024 All 2023 All 2022 All 2021 All 2020 All 2019 All 2018 All 2017 All 2016 All 2015 All 2014 All 2013 All 2012 All 2011 All 2010 All 2009 All 2008 All 2007 All 2006 All 2005 All 2004 All 2003 All 2002 All 2001 All 2000 All 1999 All 1998 All 1997 All 2025 by default year impact cited downloads downloads/a submission author title journal classical default bibitems bibtex Hcitations newcommand twiki (&y=year) citations per author impact per author bibtex e-collection

abstracts hide pdf's show images matching keyword & author

1 selected entry

Article	D. Messmer, A. Sanchez-Ferrer, S. Tacke, H. Yu, H. Nüsse, J. Klingauf, R. Wepf, M. Kröger, A. Halperin, R. Mezzenga, A.D. Schlüter Can one determine the density of an individual synthetic macromolecule? Soft Matter 15 (2019) 6547-6556
Dendronized polymers (DPs) are large and compact main-chain linear polymers with a cylindrical shape and cross-sectional diameters of up to ~15 nm. They are therefore considered molecular objects, and it was of interest whether given their experimentally accessible, well-defined dimensions, the density of individual DPs could be determined. We present measurements on individual, deposited DP chains, providing molecular dimensions from scanning and transmission electron microscopy and mass-per-length values from quantitative scanning transmission electron microscopy. These results are compared with density values obtained from small-angle X-ray scattering on annealed bulk specimen and with classical envelope density measurements, obtained using hydrostatic weighing or a density gradient column. The samples investigated comprise a series of DPs with side groups of dendritic generations g = 1-8. The key findings are a very large spread of the density values over all samples and methods, and a consistent increase of densities with g over all methods. While this work highlights the advantages and limitations of the applied methods, it does not provide a conclusive answer to the question of which method(s) to use for the determination of densities of individual molecular objects. We are nevertheless confident that these first attempts to answer this challenging question will stimulate more research into this important aspect of polymer and soft matter science. for LaTeX users @article{DMessmer2019-15,  author = {D. Messmer and A. Sanchez-Ferrer and S. Tacke and H. Yu and H. Nüsse and J. Klingauf and R. Wepf and M. Kr\"oger and A. Halperin and R. Mezzenga and A. D. Schl\"uter},  title = {Can one determine the density of an individual synthetic macromolecule?},  journal = {Soft Matter},  volume = {15},  pages = {6547-6556},  year = {2019} } \bibitem{DMessmer2019-15} D. Messmer, A. Sanchez-Ferrer, S. Tacke, H. Yu, H. Nüsse, J. Klingauf, R. Wepf, M. Kr\"oger, A. Halperin, R. Mezzenga, A.D. Schl\"uter, Can one determine the density of an individual synthetic macromolecule?, Soft Matter {\bf 15} (2019) 6547-6556. DMessmer2019-15 D. Messmer, A. Sanchez-Ferrer, S. Tacke, H. Yu, H. Nüsse, J. Klingauf, R. Wepf, M. Kr\"oger, A. Halperin, R. Mezzenga, A.D. Schl\"uter Can one determine the density of an individual synthetic macromolecule? Soft Matter,15,2019,6547-6556

---

© 19 May 2024 mk@mat.ethz.ch      1 out of 816 entries requested [H-factor to-date: > 0]