Academic literature on the topic 'Pyrolyzed photoresist film (PPF)'

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Journal articles on the topic "Pyrolyzed photoresist film (PPF)"

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Řeháček, Vlastimil, Ivan Hotový, Marian Vojs, Mário Kotlár, Thomas Kups, and Lothar Spiess. "Pyrolyzed Photoresist Film Electrodes for Application in Electroanalysis." Journal of Electrical Engineering 62, no. 1 (2011): 49–53. http://dx.doi.org/10.2478/v10187-011-0008-0.

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Pyrolyzed Photoresist Film Electrodes for Application in Electroanalysis Pyrolyzed photoresist film (PPF) electrodes for application in electroanalysis were prepared on alumina substrates. These electrodes were characterized for their electrical, microstructural (by Raman spectroscopy) and electrochemical properties. As a support, the PPF electrodes were tested for simultaneous determination of Pb(II), Cd(II) and Zn(II) in an aqueous solution on in-situ formed bismuth film by square wave voltammetry (SWV). The dependence of the stripping responses on the concentration of target metals was line
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Sánchez-Molas, David, Joana Cases-Utrera, Philippe Godignon, and F. Javier del Campo. "Mercury detection at microfabricated pyrolyzed photoresist film (PPF) disk electrodes." Sensors and Actuators B: Chemical 186 (September 2013): 293–99. http://dx.doi.org/10.1016/j.snb.2013.06.017.

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Feng, Chenyin, Christopher L. Frewin, Md Rubayat-E. Tanjil, et al. "A Flexible a-SiC-Based Neural Interface Utilizing Pyrolyzed-Photoresist Film (C) Active Sites." Micromachines 12, no. 7 (2021): 821. http://dx.doi.org/10.3390/mi12070821.

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Carbon containing materials, such as graphene, carbon-nanotubes (CNT), and graphene oxide, have gained prominence as possible electrodes in implantable neural interfaces due to their excellent conductive properties. While carbon is a promising electrochemical interface, many fabrication processes are difficult to perform, leading to issues with large scale device production and overall repeatability. Here we demonstrate that carbon electrodes and traces constructed from pyrolyzed-photoresist-film (PPF) when combined with amorphous silicon carbide (a-SiC) insulation could be fabricated with rep
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Gross, Andrew J., and Alison J. Downard. "Regeneration of Pyrolyzed Photoresist Film by Heat Treatment." Analytical Chemistry 83, no. 6 (2011): 2397–402. http://dx.doi.org/10.1021/ac103264v.

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González-Guerrero, Maria José, Juan Pablo Esquivel, David Sánchez-Molas, et al. "Membraneless glucose/O2 microfluidic enzymatic biofuel cell using pyrolyzed photoresist film electrodes." Lab on a Chip 13, no. 15 (2013): 2972. http://dx.doi.org/10.1039/c3lc50319d.

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Nipoti, Roberta, Fulvio Mancarella, Francesco Moscatelli, R. Rizzoli, and S. Zampolli. "Carbon-Cap for Ohmic Contacts on n-Type Ion Implanted 4H-SiC." Materials Science Forum 679-680 (March 2011): 504–7. http://dx.doi.org/10.4028/www.scientific.net/msf.679-680.504.

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In this study a pyrolyzed photoresist film that has been used for protecting the implanted surface of a 4H-SiC wafer during post implantation annealing at 1800-1950 °C has preserved on the wafer surface and used for the fabrication of ohmic contact pads on P+ implanted areas. The carbon film has been patterned by using a RIE O2-based plasma. A specific contact resistance of 9  10 5 cm2 has been obtained on P+ 1  1020 cm 3 implanted 4H-SiC. Micro-Raman characterizations show that the carbon cap is formed of a nano-crystalline graphitic phase.
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Rehacek, Vlastimil, Ivan Hotovy, and Marian Vojs. "Bismuth Film Voltammetric Sensor on Pyrolyzed Photoresist/Alumina Support for Determination of Heavy Metals." Electroanalysis 26, no. 5 (2014): 898–903. http://dx.doi.org/10.1002/elan.201400020.

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Kwon, Soongeun, Hak-Jong Choi, Hyung Cheoul Shim, et al. "Hierarchically Porous, Laser-Pyrolyzed Carbon Electrode from Black Photoresist for On-Chip Microsupercapacitors." Nanomaterials 11, no. 11 (2021): 2828. http://dx.doi.org/10.3390/nano11112828.

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We report a laser-pyrolyzed carbon (LPC) electrode prepared from a black photoresist for an on-chip microsupercapacitor (MSC). An interdigitated LPC electrode was fabricated by direct laser writing using a high-power carbon dioxide (CO2) laser to simultaneously carbonize and pattern a spin-coated black SU-8 film. Due to the high absorption of carbon blacks in black SU-8, the laser-irradiated SU-8 surface was directly exfoliated and carbonized by a fast photo-thermal reaction. Facile laser pyrolysis of black SU-8 provides a hierarchically macroporous, graphitic carbon structure with fewer defec
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Rehacek, V., I. Hotovy, M. Vojs, T. Kups, and L. Spiess. "Nafion-coated bismuth film electrodes on pyrolyzed photoresist/alumina supports for analysis of trace heavy metals." Electrochimica Acta 63 (February 2012): 192–96. http://dx.doi.org/10.1016/j.electacta.2011.12.075.

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Puyo, Maxime, Pierre Fau, Myrtil L. Kahn, David Mesguich, Jérôme Launay, and Katia Fajerwerg. "Removable Composite Electrode Made of Silver Nanoparticles on Pyrolyzed Photoresist Film for the Electroreduction of 4-Nitrophenol." Langmuir 35, no. 44 (2019): 14194–202. http://dx.doi.org/10.1021/acs.langmuir.9b02405.

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Dissertations / Theses on the topic "Pyrolyzed photoresist film (PPF)"

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Walker, Erin Kate. "Transparent carbon electrodes for spectroelectrochemical studies." Thesis, 2012. http://hdl.handle.net/2152/ETD-UT-2012-08-5954.

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This dissertation describes the assessment and use of carbon optically transparent electrodes (C-OTEs) based on pyrolyzed photoresist films (PPFs) as a platform for spectroelectrochemical investigations. C-OTEs are examined for use in UV-Vis spectroelectrochemistry and electrogenerated chemiluminescence and compared to non-transparent glassy carbon (GC) and the conventional transparent electrode indium tin oxide (ITO). Chapter 1 provides a general overview of transparent electrodes, carbon electrodes, and spectroelectrochemistry. Chapter 2 details a UV-Vis spectroelectrochemical investigation
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