Searched for: subject%3A%22Nanopatterning%22
(1 - 20 of 20)
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Modaresifar, K. (author)
doctoral thesis 2022
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Ganjian, M. (author)
Recurrent bacterial infection is one of the main reasons of implant failure, hugely impacting the patients’ quality of life, and ultimately resulting in morbidity and even mortality. This type of infection starts with the attachment of the bacteria to the implant surface, leading to biofilm formation and, thus, high resistance against...
doctoral thesis 2022
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Ganjian, M. (author), Janbaz, S. (author), van Manen, T. (author), Tümer, N. (author), Modaresifar, K. (author), Minneboo, M.B. (author), Fratila-Apachitei, E.L. (author), Zadpoor, A.A. (author)
We designed and fabricated a simple setup for the controlled crumpling of nanopatterned, surface-porous flat metallic sheets for the fabrication of volume-porous biomaterials and showed that crumpling can be considered as an efficient alternative to origami-inspired folding. Before crumpling, laser cutting was used to introduce pores to the...
journal article 2022
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Eijkel, Dirk (author)
In the last two decades, it has been generally accepted that the interaction between bone and immune cells is critical in the process of bone healing and regeneration. Steering this immune response with the development of biomaterials could lead to implant acceptance in the long term. The understanding of osteoimmunological responses is of high...
master thesis 2021
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Hari, S. (author), Trompenaars, P. H.F. (author), Mulders, J. J.L. (author), Kruit, P. (author), Hagen, C.W. (author)
High resolution dense lines patterned by focused electron beam-induced deposition (FEBID) have been demonstrated to be promising for lithography. One of the challenges is the presence of interconnecting material, which is often carbonaceous, between the lines as a result of the Gaussian line profile. We demonstrate the use of focused electron...
journal article 2021
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Singh, Gyanendra (author), Lesne, E.L. (author), Winkler, Dag (author), Claeson, Tord (author), Bauch, Thilo (author), Lombardi, Floriana (author), Caviglia, A. (author), Kalaboukhov, Alexei (author)
The interface between two wide band-gap insulators, LaAlO<sub>3</sub> and SrTiO<sub>3</sub> (LAO/STO), hosts a quasi-two-dimensional electron gas (q2DEG), two-dimensional superconductivity, ferromagnetism, and giant Rashba spin-orbit coupling. The co-existence of two-dimensional superconductivity with gate-tunable spin-orbit coupling and...
journal article 2021
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Modaresifar, K. (author), Kunkels, Lorenzo (author), Ganjian, M. (author), Tümer, N. (author), Hagen, C.W. (author), Otten, L.G. (author), Hagedoorn, P.L. (author), Angeloni, L. (author), Ghatkesar, M.K. (author), Fratila-Apachitei, E.L. (author), Zadpoor, A.A. (author)
Recent progress in nano-/micro-fabrication techniques has paved the way for the emergence of synthetic bactericidal patterned surfaces that are capable of killing the bacteria via mechanical mechanisms. Different design parameters are known to affect the bactericidal activity of nanopatterns. Evaluating the effects of each parameter, isolated...
journal article 2020
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Kunkels, Lorenzo (author)
Patients with orthopaedic implants often experience implant-associated infections (IAI), one of the most prominent causes for implant failure. IAIs are caused by pathogens adhering to the implant surface. One method to prevent IAIs is through the use of surface topography modifications. Cellular behaviour has been shown to be influenced by...
master thesis 2019
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Modaresifar, K. (author), Azizian Amiri, S. (author), Ganjian, M. (author), Fratila-Apachitei, E.L. (author), Zadpoor, A.A. (author)
We systematically reviewed the currently available evidence on how the design parameters of surface nanopatterns (e.g. height, diameter, and interspacing) relate to their bactericidal behavior. The systematic search of the literature resulted in 46 studies that satisfied the inclusion criteria of examining the bactericidal behavior of...
review 2019
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Widyaratih, Dwisetya S. (author), Hagedoorn, P.L. (author), Otten, L.G. (author), Ganjian, M. (author), Tümer, N. (author), Apachitei, I. (author), Hagen, C.W. (author), Fratila-Apachitei, E.L. (author), Zadpoor, A.A. (author)
Recent discoveries have shown that nanopatterns with feature sizes ≤100 nm could direct stem cell fate or kill bacteria. These effects could be used to develop orthopedic implants with improved osseointegration and decreased chance of implant-associated infections. The quest for osteogenic and bactericidal nanopatterns is ongoing but no...
journal article 2019
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Ganjian, M. (author), Modaresifar, K. (author), Ligeon, Manon R.O. (author), Kunkels, Lorenzo B. (author), Tümer, N. (author), Angeloni, L. (author), Hagen, C.W. (author), Otten, L.G. (author), Hagedoorn, P.L. (author), Apachitei, I. (author), Fratila-Apachitei, E.L. (author), Zadpoor, A.A. (author)
Development of synthetic bactericidal surfaces is a drug-free route to the prevention of implant-associated infections. Surface nanotopographies with specific dimensions have been shown to kill various types of bacterial strains through a mechanical mechanism, while regulating stem cell differentiation and tissue regeneration. The effective...
journal article 2019
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Mirzaali, Mohammad J. (author), Van Dongen, I. C.P. (author), Tümer, N. (author), Weinans, Harrie (author), Amin Yavari, S. (author), Zadpoor, A.A. (author)
Nanopillar arrays that are bactericidal but not cytotoxic against the host cells could be used in implantable medical devices to prevent implant-associated infections. It is, however, unclear what heights, widths, interspacing, and shape should be used for the nanopillars to achieve the desired antibacterial effects while not hampering the...
journal article 2018
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Keyvani Janbahan, A. (author), Sadeghian, Hamed (author), Goosen, J.F.L. (author), van Keulen, A. (author)
The origin of amplitude reduction in Tapping Mode Atomic Force Microscopy (TM-AFM) is typically attributed to the shift in resonance frequency of the cantilever due to the nonlinear tip-sample interactions. In this paper, we present a different insight into the same problem which, besides explaining the amplitude reduction mechanism, provides...
journal article 2018
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van Dongen, Isabelle (author)
The fundamentals of the nanopatterned surface can be found on the wings of cicada. These bactericidal surfaces are artificially mimicked on the surface of the implant to reduce the infection rate, which is one of the main complication after joint replacement. The bactericidal properties of the nanopatterned surface are a promising feature....
master thesis 2017
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Dwisetya Safirna Widyaratih, Dwisetya Safirna (author)
The presence of implants in the body is frequently associated with a high risk of peri-implant infections. The host and the bacterial cells compete to adhere and grow on the implant surface. Therefore, producing an implant that can promote the stem cells function (e.g., osteogenic differentiation) while reducing bacterial colonization is vital....
master thesis 2017
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Hammann, C.P.W. (author)
There is a need for joint replacing implants due to osteoarthritis and trauma. For non-cemented implants made of titanium alloys, bone ingrowth is needed. However bone ingrowth is not always accomplished. Implant micro/nanotopography can be used to enhance bone ingrowth through cellular interactions. Therefore, processes to generate controlled...
master thesis 2016
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Zonnevylle, A.C. (author), Hagen, C.W. (author), Kruit, P. (author), Valenti, M. (author), Schmidt-Ott, A. (author)
Positioning of charged nanoparticles with the help of charge patterns in an insulator substrate is a known method. However, the creation of charge patterns with a scanning electron microscope for this is relatively new. Here a scanning electron microscope is used for the creation of localized charge patterns in an insulator, while a glowing wire...
journal article 2009
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Sidorkin, V.A. (author), Alkemade, P.F.A. (author), Salemink, H.W.M. (author), Schmits, R. (author), Van der Drift, E. (author)
A method for improving the aspect ratio of ultrahigh-resolution structures in negative electron-beam resist is provided for enhanced pattern-transfer capabilities. The essence of the proposed method is to form a protective “cap” on top of the resist structure by means of electron-beam-induced deposition (EBID) in a self-aligned approach. This is...
journal article 2009
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Yan, B. (author), Pham, H.T.M. (author), Ma, Y. (author), Zhuang, Y. (author), Sarro, P.M. (author)
The authors demonstrate a method for the fabrication of in situ ultrathin porous anodic aluminum oxide layers (aspect ratio<2:1) on Si, which can be directly used as templates for nanodot preparation and for pattern transfer. The regular shape of the aluminum oxide pores is maintained even when the thickness of the aluminum oxide template is...
journal article 2007
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Van Rijn, C.J.M. (author)
journal article
Searched for: subject%3A%22Nanopatterning%22
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