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Articoli di riviste sul tema "Omniphobie"

Autore: Grafiati
Pubblicato: 24 giugno 2022

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1

Sadri, Behnam, Debkalpa Goswami e Ramses Martinez. "Rapid Fabrication of Epidermal Paper-Based Electronic Devices Using Razor Printing". Micromachines 9, n. 9 (22 agosto 2018): 420. http://dx.doi.org/10.3390/mi9090420.

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This work describes the use of a benchtop razor printer to fabricate epidermal paper-based electronic devices (EPEDs). This fabrication technique is simple, low-cost, and compatible with scalable manufacturing processes. EPEDs are fabricated using paper substrates rendered omniphobic by their cost-effective silanization with fluoroalkyl trichlorosilanes, making them inexpensive, water-resistant, and mechanically compliant with human skin. The highly conductive inks or thin films attached to one of the sides of the omniphobic paper makes EPEDs compatible with wearable applications involving wireless power transfer. The omniphobic cellulose fibers of the EPED provide a moisture-independent mechanical reinforcement to the conductive layer. EPEDs accurately monitor physiological signals such as ECG (electrocardiogram), EMG (electromyogram), and EOG (electro-oculogram) even in high moisture environments. Additionally, EPEDs can be used for the fast mapping of temperature over the skin and to apply localized thermotherapy. Our results demonstrate the merits of EPEDs as a low-cost platform for personalized medicine applications.
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2

Wang, Yubo, Qiang Guo, Zhen Li, Jingfeng Li, Ruimin He, Kaiyang Xue e Shuqin Liu. "Preparation and Modification of PVDF Membrane and Study on Its Anti-Fouling and Anti-Wetting Properties". Water 14, n. 11 (26 maggio 2022): 1704. http://dx.doi.org/10.3390/w14111704.

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Membrane distillation (MD) has unique advantages in the treatment of high-salt wastewater because it can make full use of low-grade heat sources. The high salinity mine water in western mining areas of China is rich in Ca2+, Mg2+, SO42− and HCO3−. In the MD process, the inorganic substances in the feed will cause membrane fouling. At the same time, low surface tension organic substances which could be introduced in the mining process will cause irreversible membrane wetting. To improve the anti-fouling and anti-wetting properties of the membrane, the PVDF omniphobic membrane in this paper was prepared by electrospinning. The water contact angle (WCA) can reach 153°. Direct contact membrane distillation (DCMD) was then used for treating high-salinity mine water. The results show that, compared with the unmodified membranes, the flux reduction rate of the omniphobic membrane was reduced by 34% in 20 h, showing good anti-fouling property. More importantly, the omniphobic membrane cannot be wetted easily by the feed containing 0.3 mmol/L SDS. The extended Derjaguin–Landau–Verwey–Overbeek (XDLVO) theory was used to analyze the free energy of the interface interaction between the membrane and pollutants, aiming to show that the omniphobic membrane was more difficult to pollute. The result was consistent with the flux variation in the DCMD process, providing an effective basis for explaining the mechanism of membrane fouling and membrane wetting.
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Hensel, René, Christoph Neinhuis e Carsten Werner. "The springtail cuticle as a blueprint for omniphobic surfaces". Chemical Society Reviews 45, n. 2 (2016): 323–41. http://dx.doi.org/10.1039/c5cs00438a.

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4

Khan, Fahad, Ajmir Khan, Mohammad O. Tuhin, Muhammad Rabnawaz, Zhao Li e Muhammad Naveed. "A novel dual-layer approach towards omniphobic polyurethane coatings". RSC Advances 9, n. 46 (2019): 26703–11. http://dx.doi.org/10.1039/c9ra04923a.

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5

Jamil, Muhammad Imran, Lina Song, Juan Zhu, Numan Ahmed, Xiaoli Zhan, Fengqiu Chen, Dangguo Cheng e Qinghua Zhang. "Facile approach to design a stable, damage resistant, slippery, and omniphobic surface". RSC Advances 10, n. 33 (2020): 19157–68. http://dx.doi.org/10.1039/d0ra01786h.

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6

Tuteja, A., W. Choi, J. M. Mabry, G. H. McKinley e R. E. Cohen. "Robust omniphobic surfaces". Proceedings of the National Academy of Sciences 105, n. 47 (10 novembre 2008): 18200–18205. http://dx.doi.org/10.1073/pnas.0804872105.

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7

Lu, Yao, Guanjie He, Claire J. Carmalt e Ivan P. Parkin. "Synthesis and characterization of omniphobic surfaces with thermal, mechanical and chemical stability". RSC Advances 6, n. 108 (2016): 106491–99. http://dx.doi.org/10.1039/c6ra20392b.

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8

Davis, Alexander, Elisa Mele, José Alejandro Heredia-Guerrero, Ilker S. Bayer e Athanassia Athanassiou. "Omniphobic nanocomposite fiber mats with peel-away self similarity". Journal of Materials Chemistry A 3, n. 47 (2015): 23821–28. http://dx.doi.org/10.1039/c5ta06333g.

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9

Falcón García, Carolina, Felix Stangl, Alexandra Götz, Weining Zhao, Stephan A. Sieber, Madeleine Opitz e Oliver Lieleg. "Topographical alterations render bacterial biofilms susceptible to chemical and mechanical stress". Biomaterials Science 7, n. 1 (2019): 220–32. http://dx.doi.org/10.1039/c8bm00987b.

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10

Snyder, Sarah A., Mathew Boban, Chao Li, J. Scott VanEpps, Geeta Mehta e Anish Tuteja. "Lysis and direct detection of coliforms on printed paper-based microfluidic devices". Lab on a Chip 20, n. 23 (2020): 4413–19. http://dx.doi.org/10.1039/d0lc00665c.

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This article presents an integrated microfluidic coliform lysis and detection device featuring customizable omniphilic regions created by direct printing of omniphilic channels on an omniphobic, fluorinated paper.
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11

Cimadoro, J., L. Ribba, S. Goyanes e E. Cerda. "Wetting a superomniphobic porous system". Soft Matter 15, n. 42 (2019): 8621–26. http://dx.doi.org/10.1039/c9sm01091b.

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We study experimentally and theoretically the critical pressure needed to move a liquid through a network of pores and show that, for small aperture size, wetting and leaking are typical first-order transitions, with a singular behavior at the omniphobic/omniphilic limit.
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12

Neelakantan, Nitin K., Patricia B. Weisensee, John W. Overcash, Eduardo J. Torrealba, William P. King e Kenneth S. Suslick. "Spray-on omniphobic ZnO coatings". RSC Advances 5, n. 85 (2015): 69243–50. http://dx.doi.org/10.1039/c5ra11178a.

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13

Wilke, Kyle L., Daniel J. Preston, Zhengmao Lu e Evelyn N. Wang. "Toward Condensation-Resistant Omniphobic Surfaces". ACS Nano 12, n. 11 (9 ottobre 2018): 11013–21. http://dx.doi.org/10.1021/acsnano.8b05099.

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14

Glavan, Ana C., Alar Ainla, Mahiar M. Hamedi, M. Teresa Fernández-Abedul e George M. Whitesides. "Electroanalytical devices with pins and thread". Lab on a Chip 16, n. 1 (2016): 112–19. http://dx.doi.org/10.1039/c5lc00867k.

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This work describes the adaptive use of conventional stainless steel pins—used in unmodified form or coated with carbon paste—as working, counter and quasi-reference electrodes in electrochemical devices fabricated using cotton thread or embossed omniphobic RF paper to contain the electrolyte and sample.
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15

Schernikau, Martin, Jakob Sablowski, Ignacio Guillermo Gonzalez Martinez, Simon Unz, Stefan Kaskel e Daria Mikhailova. "Preparation and Application of ZIF-8 Thin Layers". Applied Sciences 11, n. 9 (29 aprile 2021): 4041. http://dx.doi.org/10.3390/app11094041.

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Herein we compare various preparation methods for thin ZIF-8 layers on a Cu substrate for application as a host material for omniphobic lubricant-infused surfaces. Such omniphobic surfaces can be used in thermal engineering applications, for example to achieve dropwise condensation or anti-fouling and anti-icing surface properties. For these applications, a thin, conformal, homogeneous, mechanically and chemically stable coating is essential. In this study, thin ZIF-8 layers were deposited on a Cu substrate by different routes, such as (i) electrochemical anodic deposition on a Zn-covered Cu substrate, (ii) doctor blade technique for preparation of a composite layer containing PVDF binder and ZIF-8, as well as (iii) doctor blade technique for preparation of a two-layer composite on the Cu substrate containing a PVDF-film and a ZIF-8 layer. The morphology and topography of the coatings were compared by using profilometry, XRD, SEM and TEM techniques. After infusion with a perfluorinated oil, the wettability of the surfaces was assessed by contact angle measurements, and advantages of each preparation method were discussed.
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16

Lin, Shihong, Siamak Nejati, Chanhee Boo, Yunxia Hu, Chinedum O. Osuji e Menachem Elimelech. "Omniphobic Membrane for Robust Membrane Distillation". Environmental Science & Technology Letters 1, n. 11 (2 ottobre 2014): 443–47. http://dx.doi.org/10.1021/ez500267p.

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17

Chhatre, Shreerang S., Wonjae Choi, Anish Tuteja, Kyoo-Chul (Kenneth) Park, Joseph M. Mabry, Gareth H. McKinley e Robert E. Cohen. "Scale Dependence of Omniphobic Mesh Surfaces". Langmuir 26, n. 6 (16 marzo 2010): 4027–35. http://dx.doi.org/10.1021/la903489r.

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18

Wooh, Sanghyuk, e Doris Vollmer. "Siliconbürsten: omniphobe Oberflächen mit niedrigen Gleitwinkeln". Angewandte Chemie 128, n. 24 (9 maggio 2016): 6934–37. http://dx.doi.org/10.1002/ange.201511895.

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19

Chiao, Yu-Hsuan, Micah Belle Marie Yap Ang, Yu-Xi Huang, Sandrina Svetlana DePaz, Yung Chang, Jorge Almodovar e S. Ranil Wickramasinghe. "A “Graft to” Electrospun Zwitterionic Bilayer Membrane for the Separation of Hydraulic Fracturing-Produced Water via Membrane Distillation". Membranes 10, n. 12 (7 dicembre 2020): 402. http://dx.doi.org/10.3390/membranes10120402.

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Simultaneous fouling and pore wetting of the membrane during membrane distillation (MD) is a major concern. In this work, an electrospun bilayer membrane for enhancing fouling and wetting resistance has been developed for treating hydraulic fracture-produced water (PW) by MD. These PWs can contain over 200,000 ppm total dissolved solids, organic compounds and surfactants. The membrane consists of an omniphobic surface that faces the permeate stream and a hydrophilic surface that faces the feed stream. The omniphobic surface was decorated by growing nanoparticles, followed by silanization to lower the surface energy. An epoxied zwitterionic polymer was grafted onto the membrane surface that faces the feed stream to form a tight antifouling hydration layer. The membrane was challenged with an aqueous NaCl solution containing sodium dodecyl sulfate (SDS), an ampholyte and crude oil. In the presence of SDS and crude oil, the membrane was stable and displayed salt rejection (>99.9%). Further, the decrease was much less than the base polyvinylidene difluoride (PVDF) electrospun membrane. The membranes were also challenged with actual PW. Our results highlight the importance of tuning the properties of the membrane surface that faces the feed and permeate streams in order to maximize membrane stability, flux and salt rejection.
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20

Griggs, Jessica. "Omniphobia: the stuffs that stick at nothing". New Scientist 216, n. 2892 (novembre 2012): 46–49. http://dx.doi.org/10.1016/s0262-4079(12)63021-8.

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21

Guo, Huizhang, Peter Fuchs, Kirstin Casdorff, Benjamin Michen, Munish Chanana, Harald Hagendorfer, Yaroslav E. Romanyuk e Ingo Burgert. "Bio-Inspired Superhydrophobic and Omniphobic Wood Surfaces". Advanced Materials Interfaces 4, n. 1 (9 novembre 2016): 1600289. http://dx.doi.org/10.1002/admi.201600289.

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22

Ma, Zhengfeng, Yang Wu, Rongnian Xu, Zhihuan Li, Yubo Liu, Jianxi Liu, Meirong Cai, Weifeng Bu e Feng Zhou. "Robust Hybrid Omniphobic Surface for Stain Resistance". ACS Applied Materials & Interfaces 13, n. 12 (4 marzo 2021): 14562–68. http://dx.doi.org/10.1021/acsami.0c22834.

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23

Lu, Kang Jia, Jian Zuo, Jian Chang, Hong Nan Kuan e Tai-Shung Chung. "Omniphobic Hollow-Fiber Membranes for Vacuum Membrane Distillation". Environmental Science & Technology 52, n. 7 (21 marzo 2018): 4472–80. http://dx.doi.org/10.1021/acs.est.8b00766.

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24

Hsu, Sheng-Hao, Yuan-Ling Chang, Yu-Chieh Tu, Chieh-Ming Tsai e Wei-Fang Su. "Omniphobic Low Moisture Permeation Transparent Polyacrylate/Silica Nanocomposite". ACS Applied Materials & Interfaces 5, n. 8 (11 aprile 2013): 2991–98. http://dx.doi.org/10.1021/am302446t.

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25

Fenero, Marta, Mato Knez, Iva Saric, Mladen Petravic, Hans Grande e Jesús Palenzuela. "Omniphobic Etched Aluminum Surfaces with Anti-Icing Ability". Langmuir 36, n. 37 (29 agosto 2020): 10916–22. http://dx.doi.org/10.1021/acs.langmuir.0c01324.

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26

HOZUMI, Atsushi. "New Developments in Omniphobic Surfaces Inspired by Nature". Journal of The Adhesion Society of Japan 51, n. 7 (2015): 370–74. http://dx.doi.org/10.11618/adhesion.51.370.

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27

Wooh, Sanghyuk, e Doris Vollmer. "Silicone Brushes: Omniphobic Surfaces with Low Sliding Angles". Angewandte Chemie International Edition 55, n. 24 (9 maggio 2016): 6822–24. http://dx.doi.org/10.1002/anie.201511895.

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28

Hensel, René, Andreas Finn, Ralf Helbig, Hans-Georg Braun, Christoph Neinhuis, Wolf-Joachim Fischer e Carsten Werner. "Biologically Inspired Omniphobic Surfaces by Reverse Imprint Lithography". Advanced Materials 26, n. 13 (23 dicembre 2013): 2029–33. http://dx.doi.org/10.1002/adma.201305408.

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29

Ghaleni, Mahdi Mohammadi, Shayan Kaviani, Kimya Rajwade, Mona Bavarian, François Perreault e Siamak Nejati. "All Dry Bottom‐Up Assembly of Omniphobic Interfaces". Advanced Materials Interfaces 7, n. 12 (30 aprile 2020): 1902159. http://dx.doi.org/10.1002/admi.201902159.

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30

Lu, Chun, Chunlei Su, Hongbin Cao, Xiaofeng Ma, Feng Duan, Junjun Chang e Yuping Li. "F-POSS based Omniphobic Membrane for Robust Membrane Distillation". Materials Letters 228 (ottobre 2018): 85–88. http://dx.doi.org/10.1016/j.matlet.2018.05.126.

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31

Zhao, Xiaoxiao, Md Arifur Rahman Khandoker e Kevin Golovin. "Non-Fluorinated Omniphobic Paper with Ultralow Contact Angle Hysteresis". ACS Applied Materials & Interfaces 12, n. 13 (6 marzo 2020): 15748–56. http://dx.doi.org/10.1021/acsami.0c01678.

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32

Salimi, Esmaeil. "Omniphobic surfaces: state-of-the-art and future perspectives". Journal of Adhesion Science and Technology 33, n. 12 (13 aprile 2019): 1369–79. http://dx.doi.org/10.1080/01694243.2019.1599217.

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33

Lu, Kang Jia, Yuanmiaoliang Chen e Tai-Shung Chung. "Design of omniphobic interfaces for membrane distillation – A review". Water Research 162 (ottobre 2019): 64–77. http://dx.doi.org/10.1016/j.watres.2019.06.056.

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34

Mohammadi Ghaleni, Mahdi, Abdullah Al Balushi, Mona Bavarian e Siamak Nejati. "Omniphobic Hollow Fiber Membranes for Water Recovery and Desalination". ACS Applied Polymer Materials 2, n. 8 (27 luglio 2020): 3034–38. http://dx.doi.org/10.1021/acsapm.0c00353.

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35

Zhao, Hanyang, Chirag Anand Deshpande, Longnan Li, Xiao Yan, Muhammad Jahidul Hoque, Gowtham Kuntumalla, Manjunath C. Rajagopal et al. "Extreme Antiscaling Performance of Slippery Omniphobic Covalently Attached Liquids". ACS Applied Materials & Interfaces 12, n. 10 (11 febbraio 2020): 12054–67. http://dx.doi.org/10.1021/acsami.9b22145.

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36

Dufour, Renaud, Maxime Harnois, Vincent Thomy, Rabah Boukherroub e Vincent Senez. "Contact angle hysteresis origins: Investigation on super-omniphobic surfaces". Soft Matter 7, n. 19 (2011): 9380. http://dx.doi.org/10.1039/c1sm05832k.

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37

Wang, Liming, e Thomas J. McCarthy. "Covalently Attached Liquids: Instant Omniphobic Surfaces with Unprecedented Repellency". Angewandte Chemie 128, n. 1 (16 novembre 2015): 252–56. http://dx.doi.org/10.1002/ange.201509385.

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38

Wang, Liming, e Thomas J. McCarthy. "Covalently Attached Liquids: Instant Omniphobic Surfaces with Unprecedented Repellency". Angewandte Chemie International Edition 55, n. 1 (16 novembre 2015): 244–48. http://dx.doi.org/10.1002/anie.201509385.

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39

De Marco, Carmela, Valeria Oldani, Claudia Letizia Bianchi, Marinella Levi e Stefano Turri. "A biomimetic surface treatment to obtain durable omniphobic textiles". Journal of Applied Polymer Science 132, n. 32 (14 maggio 2015): n/a. http://dx.doi.org/10.1002/app.42404.

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40

Kim, Ju Hyeon, Tae Soup Shim e Shin-Hyun Kim. "Lithographic Design of Overhanging Microdisk Arrays Toward Omniphobic Surfaces". Advanced Materials 28, n. 2 (17 novembre 2015): 291–98. http://dx.doi.org/10.1002/adma.201503643.

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41

Lee, Young-Ah Lucy, Shiyi Zhang, Jiaqi Lin, Robert Langer e Giovanni Traverso. "A Janus Mucoadhesive and Omniphobic Device for Gastrointestinal Retention". Advanced Healthcare Materials 5, n. 10 (6 aprile 2016): 1141–46. http://dx.doi.org/10.1002/adhm.201501036.

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42

Grigoryev, Anton, Yuri Roiter, Ihor Tokarev, Igor Luzinov e Sergiy Minko. "Colloidal Occlusion Template Method for Micromanufacturing of Omniphobic Surfaces". Advanced Functional Materials 23, n. 7 (25 settembre 2012): 870–77. http://dx.doi.org/10.1002/adfm.201201575.

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43

Glavan, Ana C., Ramses V. Martinez, Anand Bala Subramaniam, Hyo Jae Yoon, Rui M. D. Nunes, Heiko Lange, Martin M. Thuo e George M. Whitesides. "Omniphobic “RFPaper” Produced by Silanization of Paper with Fluoroalkyltrichlorosilanes". Advanced Functional Materials 24, n. 1 (26 luglio 2013): 60–70. http://dx.doi.org/10.1002/adfm.201300780.

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44

Huang, Shilin, Juan Li, Lin Liu, Lidan Zhou e Xuelin Tian. "Omniphobic Surfaces: Lossless Fast Drop Self‐Transport on Anisotropic Omniphobic Surfaces: Origin and Elimination of Microscopic Liquid Residue (Adv. Mater. 27/2019)". Advanced Materials 31, n. 27 (luglio 2019): 1970197. http://dx.doi.org/10.1002/adma.201970197.

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45

Wehner, Raymond. "Optimal shadow omniphonic microphone and loudspeaker system". Journal of the Acoustical Society of America 87, n. 2 (febbraio 1990): 932. http://dx.doi.org/10.1121/1.398819.

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46

Li, Xuesong, Abhishek Dutta, Qirong Dong, Sasha Rollings-Scattergood e Jongho Lee. "Dissolved Methane Harvesting Using Omniphobic Membranes for Anaerobically Treated Wastewaters". Environmental Science & Technology Letters 6, n. 4 (6 marzo 2019): 228–34. http://dx.doi.org/10.1021/acs.estlett.9b00076.

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47

Susarrey-Arce, A., Á. G. Marín, H. Nair, L. Lefferts, J. G. E. Gardeniers, D. Lohse e A. van Houselt. "Absence of an evaporation-driven wetting transition on omniphobic surfaces". Soft Matter 8, n. 38 (2012): 9765. http://dx.doi.org/10.1039/c2sm25746g.

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48

Deng, Li, Haohui Ye, Xiong Li, Peiyun Li, Jiawei Zhang, Xuefen Wang, Meifang Zhu e Benjamin S. Hsiao. "Self-roughened omniphobic coatings on nanofibrous membrane for membrane distillation". Separation and Purification Technology 206 (novembre 2018): 14–25. http://dx.doi.org/10.1016/j.seppur.2018.05.035.

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49

Huang, Xiayun, James D. Chrisman e Nicole S. Zacharia. "Omniphobic Slippery Coatings Based on Lubricant-Infused Porous Polyelectrolyte Multilayers". ACS Macro Letters 2, n. 9 (4 settembre 2013): 826–29. http://dx.doi.org/10.1021/mz400387w.

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50

Credi, Caterina, Marinella Levi, Stefano Turri e Giovanni Simeone. "Stereolithography of perfluoropolyethers for the microfabrication of robust omniphobic surfaces". Applied Surface Science 404 (maggio 2017): 268–75. http://dx.doi.org/10.1016/j.apsusc.2017.01.208.

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