Fingerprint resistant coatings for stainless steel substrates

Kesmez, Ömer; Selli, Neslihan Tamsü; Tunalı, Ayşe; Akarsu, Esin; Akarsu, Murat; Arpaç, Ertuğrul

doi:10.1016/j.porgcoat.2017.07.003

Cited by 6 publications

(2 citation statements)

References 9 publications

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“…In a study aiming at proposing an anti-fingerprint coating for stainless steel, Kesmez et al. investigated the impact of surface roughness on the ability for a fingertip (contaminated with a mix of artificial sebum and sweat) to transfer material [ 558 ]. The combination of a mesoporous layer embedding enzymatic molecules (e.g., lipases) was proposed as a new anti-fingerprint coating [ 559 ].…”

Section: Fingermark Composition and Detectionmentioning

confidence: 99%

Interpol review of fingermarks and other body impressions 2016–2019

Bécue

Eldridge

Champod

2020

Forensic Science International: Synergy

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Section: Fingermark Composition and Detectionmentioning

confidence: 99%

Interpol review of fingermarks and other body impressions 2016–2019

Bécue

Eldridge

Champod

2020

Forensic Science International: Synergy

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“…Therefore, there is considerable interest in keeping the surfaces of devices free from fingerprints and dirt. Antifouling films and coatings are being developed for this purpose (Kesmez et al, 2017). In addition, a method of changing the surface shape by adding a microstructure to the material surface has been developed (Jheng and Lee, 2016;Saito et al, 2008;Tokuhisa et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

Anti-fingerprint glass surface created by mechanical removal process

Shibata

Nakashima

Nakanishi

2019

JBSE

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The use of various types of information devices equipped with touch panels has been increasing. When these devices are used directly with fingers, the devices become dirty owing to sweat and oil from users. Therefore, there is considerable interest in keeping the surfaces of devices free from fingerprints and dirt. Antifouling films and coatings are being developed for this purpose. In addition, a method of changing the surface shape by adding a microstructure to a material surface has been developed. The purpose of this study is to add the antifouling function to glass surfaces using a mechanical removal process. We attempted to change the surface shape by processing a material surface directly. The processing method was microslurry-jet (MSJ) processing, which is a mechanical removal method. In addition, a masking process was used to create microsurface structures. As an example, we evaluated the anti-fingerprint glass created by these processing methods. Microsurfaces were successfully created on the glass surface through the combination of the masking process and MSJ processing. Moreover, the visibility of the created glass, surface characteristics, friction characteristics, and the adhesion of stains were evaluated. With respect to visibility, surface characteristics, and adhesion, it was possible to observe the changes in surface characteristics due to the microsurfaces. With regard to friction characteristics, differences in surface patterns were found for individual subject data.

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Past, Present, and Future of the Forensic Use of Fingermarks

Girod-Frais

Bécue

2021

Technologies for Fingermark Age Estimations: A Step Forward

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Fingerprint resistant coatings for stainless steel substrates

Cited by 6 publications

References 9 publications

Interpol review of fingermarks and other body impressions 2016–2019

Interpol review of fingermarks and other body impressions 2016–2019

Anti-fingerprint glass surface created by mechanical removal process

Past, Present, and Future of the Forensic Use of Fingermarks

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