Relevant bibliographies by topics / Diamagnetic repulsion

Academic literature on the topic 'Diamagnetic repulsion'

Author: Grafiati
Published: 10 December 2022
Last updated: 29 January 2023

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Journal articles on the topic "Diamagnetic repulsion"

1

Tarn, Mark D., Noriyuki Hirota, Alexander Iles, and Nicole Pamme. "On-chip diamagnetic repulsion in continuous flow." Science and Technology of Advanced Materials 10, no. 1 (January 2009): 014611. http://dx.doi.org/10.1088/1468-6996/10/1/014611.

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2

YAMAMOTO, Kohei, Norio TAGAWA, and Hiroshi TANI. "1308 Study of Bearing using Diamagnetic Repulsion." Proceedings of Conference of Kansai Branch 2012.87 (2012): _13–8_. http://dx.doi.org/10.1299/jsmekansai.2012.87._13-8_.

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Jang, Bong Hwan, Seyong Kwon, and Joo H. Kang. "Measurement of the magnetic susceptibility of subtle paramagnetic solutions using the diamagnetic repulsion of polymer microparticles." Lab on a Chip 19, no. 14 (2019): 2356–61. http://dx.doi.org/10.1039/c9lc00245f.

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Pinot, Patrick, and Zaccaria Silvestri. "Pyrolytic carbon: applications of its diamagnetism in metrology." International Journal of Metrology and Quality Engineering 10 (2019): 7. http://dx.doi.org/10.1051/ijmqe/2019008.

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This paper presents some current or potential applications in metrology based on the diamagnetism of pyrolytic carbon (PyC). The magnetic repulsion force acting between a piece of PyC subjected to a magnetic flux can be used as magnetic spring either to control the position of the sensitive sensor element or to detect changes of a physical quantity to be measured. The first part of this paper provides examples briefly described of devices based on the diamagnetism of PyC for measuring mechanical quantities. There are two main configurations for magnetic levitation: one, used for measuring acceleration or inclination for instance, is based on the levitation of a PyC tile above a magnet or set of magnets; In the other, used to measure forces caused for example by contact or buoyancy, it is the permanent magnet that is levitated at a stable height above a fixed PyC tile. The second part describes current work at the Laboratoire Commun de Métrologie (LCM-LNE/CNAM) on the development of new laser power sensors using either diamagnetic force changes by photothermal excitation of electrons or diamagnetic torsion spring.
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Tarn, Mark D., Luke T. Elders, Sally A. Peyman, and Nicole Pamme. "Diamagnetic repulsion of particles for multilaminar flow assays." RSC Advances 5, no. 126 (2015): 103776–81. http://dx.doi.org/10.1039/c5ra21867e.

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Peyman, Sally A., Er Yee Kwan, Oliver Margarson, Alexander Iles, and Nicole Pamme. "Diamagnetic repulsion—A versatile tool for label-free particle handling in microfluidic devices." Journal of Chromatography A 1216, no. 52 (December 2009): 9055–62. http://dx.doi.org/10.1016/j.chroma.2009.06.039.

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7

Kwon, Seyong, Jieung Oh, Min Seok Lee, Eujin Um, Joonwoo Jeong, and Joo H. Kang. "Enhanced Diamagnetic Repulsion of Blood Cells Enables Versatile Plasma Separation for Biomarker Analysis in Blood." Small 17, no. 23 (May 12, 2021): 2100797. http://dx.doi.org/10.1002/smll.202100797.

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Holík, Miroslav, and Božena Matějková. "Transmission of substituent effects in N-(p-substituted phenyl)-phthalimides." Collection of Czechoslovak Chemical Communications 55, no. 1 (1990): 261–72. http://dx.doi.org/10.1135/cccc19900261.

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Chemical shifts of benzene part of the title compounds have been correlated with substituent chemical shifts (SCS) increments a for 1H and z for 13C NMR spectra. These correlations gave pieces of information not only about the through-conjugation of substituents but also about the change of the twist about the central N-C bond with the change of substituent in the para-position. In such a way the electronic effects of substituents have been studied together with the effects due to conformational changes which manifest themselves with the change in the van der Waals repulsion and/or diamagnetic anisotropy of double bond. Chemical shifts in phthalimide part of molecule have been related to the electronic effect of distant substituent after separation of the main source of variation from random error by principal component analysis.
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Rodríguez-Villarreal, Angeles Ivón, Mark D. Tarn, Leigh A. Madden, Julia B. Lutz, John Greenman, Josep Samitier, and Nicole Pamme. "Flow focussing of particles and cells based on their intrinsic properties using a simple diamagnetic repulsion setup." Lab Chip 11, no. 7 (2011): 1240–48. http://dx.doi.org/10.1039/c0lc00464b.

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Kwon, Seyong, Jieung Oh, Min Seok Lee, Eujin Um, Joonwoo Jeong, and Joo H. Kang. "Blood Plasma Separation: Enhanced Diamagnetic Repulsion of Blood Cells Enables Versatile Plasma Separation for Biomarker Analysis in Blood (Small 23/2021)." Small 17, no. 23 (June 2021): 2170116. http://dx.doi.org/10.1002/smll.202170116.

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Book chapters on the topic "Diamagnetic repulsion"

1

Hüttner, W. "24 ArH X 2Σ+, repulsive ground state Argon hydride." In Diamagnetic Diatomic Molecules. Part 1, 43. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012. http://dx.doi.org/10.1007/978-3-540-69954-5_26.

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Journal articles
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