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Literatura académica sobre el tema "Fluorinated Soft-Matter"
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Artículos de revistas sobre el tema "Fluorinated Soft-Matter"
Herlihy, Kevin P. "High Modulus Fluorinated Molding Materials Improve Fidelity in Soft Lithography". MRS Bulletin 35, n.º 5 (mayo de 2010): 340. http://dx.doi.org/10.1557/mrs2010.560.
Texto completoChoi, Dae-Geun, Jun-ho Jeong, Young-suk Sim, Eung-sug Lee, Woo-Soo Kim y Byeong-Soo Bae. "Fluorinated Organic−Inorganic Hybrid Mold as a New Stamp for Nanoimprint and Soft Lithography". Langmuir 21, n.º 21 (octubre de 2005): 9390–92. http://dx.doi.org/10.1021/la0513205.
Texto completoGuo, Yudi, Dongyan Tang y Fan Yang. "Transparent fluorinate acrylic polyurethane with hydrophobicity obtained by crosslinking of hydroxyl-containing fluoroacrylate copolymer with HDI trimer". Materials Science-Poland 33, n.º 3 (1 de septiembre de 2015): 451–59. http://dx.doi.org/10.1515/msp-2015-0076.
Texto completoSilva, Gonçalo M. C., José Justino, Pedro Morgado, Miguel Teixeira, Luís M. C. Pereira, Lourdes F. Vega y Eduardo J. M. Filipe. "Detailed surface characterization of highly fluorinated liquid alcohols: Experimental surface tensions, molecular simulations and soft-SAFT theory". Journal of Molecular Liquids 300 (febrero de 2020): 112294. http://dx.doi.org/10.1016/j.molliq.2019.112294.
Texto completoFerreira, Margarida L., Fèlix Llovell, Lourdes F. Vega, Ana B. Pereiro y João M. M. Araújo. "Systematic study of the influence of the molecular structure of fluorinated ionic liquids on the solubilization of atmospheric gases using a soft-SAFT based approach". Journal of Molecular Liquids 294 (noviembre de 2019): 111645. http://dx.doi.org/10.1016/j.molliq.2019.111645.
Texto completoSadykova, O. V., N. A. Aksenova, N. N. Glagolev, A. F. Vanin, A. B. Shekhter, A. l. Fayzullin, A. S. Dubovik, I. G. Plashchina, A. B. Solovieva y P. S. Timashev. "Polymer photosensitizing systems containing porphyrins, dinitrosyl iron complexes, and sodium alginate in the generation of singlet oxygen". Laser Physics 33, n.º 4 (17 de febrero de 2023): 046201. http://dx.doi.org/10.1088/1555-6611/acb923.
Texto completoZhou, Lian, Fei Zhang, Xingchen Ma y Xiaoqing Zhang. "Influence of Soft X-ray and Ultraviolet Irradiations on Sensitivity of Sensors Made with Piezoelectret Films". Journal of Physics D: Applied Physics, 18 de julio de 2023. http://dx.doi.org/10.1088/1361-6463/ace83a.
Texto completoLiu, Man, Jinhui Song, Hongmei Qin, Shiyu Qin, Yibo Zhang, Wenlai Xia, Chuanxi Xiong y Feihua Liu. "Significant Enhancement in Dielectric Properties of Polyimide Alloys Through a Two‐Phase Interlocking Structure". Advanced Functional Materials, 26 de enero de 2024. http://dx.doi.org/10.1002/adfm.202313258.
Texto completoBarnes, Claire, Ashish R. Sonwane, Eva C. Sonnenschein y Francesco Del Giudice. "Machine learning enhanced droplet microfluidics". Physics of Fluids 35, n.º 9 (1 de septiembre de 2023). http://dx.doi.org/10.1063/5.0163806.
Texto completoTesis sobre el tema "Fluorinated Soft-Matter"
Silva, Pedro Manuel Ribeiro. "Langmuir Films of Perfluoroalkylalkanes : Multiscale Insights on Molecular Structure, Mixing, and Subphase Deformability Effects". Electronic Thesis or Diss., Sorbonne université, 2024. http://www.theses.fr/2024SORUS215.
Texto completoPerfluoroalkylalkanes (PFAAs; CnF2n+1CmH2m+1; FnHm) are diblock molecules formed by a hydrogenated (CH) and a perfluorinated (CF) blocks. Both are hydrophobic and mutually phobic. Despite lacking a polar group, these primitive surfactants form Langmuir films on water or hydrophilic substrates. The films comprise well-defined, hexagonally ordered, monodispersed hemimicelles as shown by Atomic Force Microscopy (AFM) and Grazing Incidence X-rays Diffraction experiments. It has been observed that the diameter of these hemimicelles is linked to the molecular structure. However, the effects of varying molecular structure (n and/or m), mixing in binary films and the physicochemical properties of the liquid subphase on the structure and ordering of the Langmuir films are still left untapped.Computational (Molecular Dynamics (MD) simulation) studies have elucidated the internal structure of pure F8H16 hemimicelles. Herein, FnHm hemimicelles were also studied by MD as functions of n and m. It was found that the fan-like arrangement of the molecules within the hemimicelles explains the variation of the diameter of the hemimicelle with the molecular architecture, specifically the mismatch of the CH and CF chains' cross-sectional areas and the relative lengths of the CH and CF chains. A model based on geometrical arguments is proposed. Furthermore, it was found that the central pit of the hemimicelles evidenced by AFM measurements results from both the CH2-CF2 dipoles intermolecular interaction and the ability to deform the liquid substrate. Finally, it was found that the formation of ordered hemimicelles of FnHm is possible on other liquid subphases such as short-chain CH and CF alcohols.Further, the structure and order of mixed F8H14:F8H20 Langmuir films were probed by surface pressure-molecular area isotherms, Grazing Incidence Small Angle X-Ray Scattering (GISAXS) and Grazing Incidence X-Ray Diffraction (GIXD). It was found that the lattice parameter of the network of hemimicelles is between the ones of the pure cases. This indicates either a mixing at the molecular level (formation of mixed monodisperse hemimicelles) or a mixture of two types of pure FnHm hemimicelles.These results are promising and shed light on the fundamental principles driving the self-assembling and, ultimately, the prediction and control of the morphology of the nanostructured Langmuir films of PFAAs, envisaging their use as templates for surface nanopatterning and nanotechnology applications. Future work should focus on further characterising the mixed binary films, including with different n and m, to discern between the proposed scenarios. Moreover, drawing on the accumulated knowledge, the studies should advance towards studying mixed films and emulsions of PFAAs with relevant biomolecules (e.g. phospholipids)