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Publications citing the applications of openQCM (by Novaetech S.r.l.) instruments and accessories in scientific research.
The list of scientific papers published on the most important journals showing the usage of openQCM in several scientific fields, such as thin film deposition, chemical sensors, biological research and biosensors.
Because of the large number of publications, we are reorganizing everything by subject areas. This will take some time. Thank you for your patience
György, Dr. Csilla; Kirkman, Dr. Paul M.; Neal, Dr. Thomas J.; Chan, Dr. Derek H. H.; Williams, Megan; Smith, Dr. Timothy; Growney, Dr. David J.; Armes, Prof. Steven P.
Enhanced Adsorption of Epoxy-Functional Nanoparticles onto Stainless Steel Significantly Reduces Friction in Tribological Studies Journal Article
In: Angewandte Chemie International Edition, 2023.
Abstract | Links | BibTeX | Tags: epoxy-functional noparticles, nanoparticles, polymerization, polymerization-induced, QCM-D, Quartz Crystal Microbalance, RAFT, self-assembly, stainless steel
@article{armesenhanced,
title = {Enhanced Adsorption of Epoxy-Functional Nanoparticles onto Stainless Steel Significantly Reduces Friction in Tribological Studies},
author = {Dr. Csilla György and Dr. Paul M. Kirkman and Dr. Thomas J. Neal and Dr. Derek H. H. Chan and Megan Williams and Dr. Timothy Smith and Dr. David J. Growney and Prof. Steven P. Armes},
url = {https://onlinelibrary.wiley.com/doi/10.1002/anie.202218397},
doi = {https://doi.org/10.1002/anie.202218397},
year = {2023},
date = {2023-01-18},
urldate = {2023-01-18},
journal = {Angewandte Chemie International Edition},
publisher = {Wiley Online Library},
abstract = {Epoxy-functional sterically-stabilized diblock copolymer nanoparticles (~27 nm) are prepared via RAFT dispersion polymerization in mineral oil. Nanoparticle adsorption onto stainless steel is examined using a quartz crystal microbalance. Incorporating epoxy groups within the steric stabilizer chains results in a near two-fold increase in the adsorbed amount, Γ, at 20 °C (7.6 mg m-2) compared to epoxy-core functional nanoparticles (3.7 mg m-2) or non-functional nanoparticles (3.8 mg m-2). A larger difference in Γ is observed at 40 °C; this suggests chemical adsorption of the nanoparticles rather than merely physical adsorption. A remarkable near five-fold increase in Γ is observed for larger (~50 nm) epoxy-functional nanoparticles compared to non-functional nanoparticles (31.3 vs. 6.4 mg m-2, respectively). Tribological studies conducted at 60-120 °C confirm that the adsorption of epoxy-functional nanoparticles leads to a significant reduction in the friction coefficient.},
key = {QCM-D, nanoparticles},
keywords = {epoxy-functional noparticles, nanoparticles, polymerization, polymerization-induced, QCM-D, Quartz Crystal Microbalance, RAFT, self-assembly, stainless steel},
pubstate = {published},
tppubtype = {article}
}
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