Global ETD Search

71	The Effects of Deployable Surface Topography Using Liquid Crystal Elastomers on Cylindrical Bodies In Flow Settle, Michael J., Jr 15 May 2023 (has links) No description available. Aerospace Engineering Aerospace Materials Materials Science Engineering Mechanical Engineering Liquid crystal elastomers Active flow control Controllable surface topography Digital image correlation
72	Artificial Microscopic Structures in Nematic Liquid Crystals Created by Patterned Photoalignment And Controlled Confinement: Instrumentation, Fabrication and Characterization Culbreath, Christopher Michael 29 April 2015 (has links) No description available. Physics Physical Chemistry Chemistry
73	Magnetic Actuation of Biological Systems Lauback, Stephanie Diane 23 October 2017 (has links) No description available. Physics
74	Microfabrication Techniques for Printing on PDMS Elastomers for Antenna and Biomedical Applications Apaydin, Elif 30 September 2009 (has links) No description available. Engineering Microfabrication Techniques Flexible electronics PDMS elastomers Patterned Metal Printing Microtextured Surface Flexible Antennas Flexible Neural Microelectrode Array Brain Cortical Surface Recording Pt Electroplating Cu Electroplating
75	Textures à la surface libre de cristaux liquides smectiques : étude en géométrie films librement suspendus et sur substrats structurés / Textures at the free surface of smectic liquid crystals : investigations in free standing films and on patterned solid substrates Selmi, Mayada 03 July 2018 (has links) Ces travaux concernent l’étude expérimentale des textures se développant dans les ménisques de films smectiques de cristaux liquides thermotropes. Ces fluides complexes nous servent de système modèle pour l’étude des couplages élasto-capillaires qui se manifestent dans certaines conditions par des déformations périodiques de l’interface cristal liquide-air. Dans un premier temps, à partir de l’étude détaillée de la topographie de l’interface par une méthode interférométrique, nous caractérisons les différents types de structures, puis, identifions les principaux paramètres impliqués dans le processus d'apparition des défauts dans le ménisque de films libres suspendus. Ces résultats nous servent de base pour discuter des mécanismes physiques qui génèrent les différents types de défauts observés. Nous regardons en particulier, comment la diminution d’épaisseur de couche associée à une transition de phase va induire une instabilité mécanique responsable de l’apparition des ondulations de l’interface. Dans un deuxième temps, afin d’aller plus loin dans la compréhension des mécanismes, nous avons utilisé des films minces de cristaux liquides déposés sur des substrats solides microstructurés par des plots fabriqués par des techniques photolitographiques. Une telle géométrie permet de générer un ménisque autour de chaque plot et surtout de faire varier un plus grand nombre de paramètres comme par exemple l’ancrage sur le substrat via un traitement chimique de surface. L’ensemble de nos résultats apportent un éclairage nouveau sur la caractérisation et la compréhension des déformations spécifiques aux ménisques de fluides complexes. / The present work is an experimental study of the textures that appear in the meniscus of free standing smectic films with thermotropic liquid crystals. These complex fluids serve as model systems to investigate elasto-capillary phenomena which, under certain conditions, manifest themselves through periodic deformations of the liquid crystalair interface. In the first part of the thesis, we focus our attention on meniscus structures whose interfacial topographies are thoroughly characterized thanks to an in-house optical interferometry technique. Our study allows us to identify the main parameters involved in the development of meniscus structures and to discuss the physical mechanisms that are likely to be responsible for their formation. In particular, we show how a phase transition-induced layer shrinkage triggers a mechanical instability leading to interfacial undulations of the smectic free surface. In the second part of the manuscript, we address the case of thin liquid crystal films deposited on solid patterned solid substrates. The latter consist of regular arrays of microposts fabricated through photolithographic techniques. Such a geometry allows a meniscus to be formed around each micropost and makes it possible to examine the influence of other parameters such as the anchoring conditions on the solid substrate. The results gathered so far are able to shed some light on the characterization and the understanding of the specific deformations and textures that appear in the menisci of complex fluids. Cristal liquide Phase smectique Film librement suspendu Ménisque Substrat microstructuré Topographie de surface Interférométrie à décalage de phase Défauts topologiques Liquid crystals Smectic phase Free standing film Meniscus Patterned substrates Surface topography Phase shifting interferometry Topological defects
76	Literatura infantil e desenvolvimento da imaginação: trabalho modelado como ferramenta de ensino do argumento narrativo / Children's literature and development of the imagination: work modeled as teaching tool of narrative argument Ribeiro, Aline Escobar Magalhães [UNESP] 26 February 2018 (has links) Submitted by ALINE ESCOBAR null (alineescobar201@gmail.com) on 2018-03-23T12:55:05Z No. of bitstreams: 1 TESE-PARA-IMPRESSÃO.pdf: 5429311 bytes, checksum: 46ec02b66b16e1dab15ede3597580b99 (MD5) / Approved for entry into archive by Satie Tagara (satie@marilia.unesp.br) on 2018-03-26T13:55:58Z (GMT) No. of bitstreams: 1 ribeiro_aem_dr_mar.pdf: 5429311 bytes, checksum: 46ec02b66b16e1dab15ede3597580b99 (MD5) / Made available in DSpace on 2018-03-26T13:55:58Z (GMT). No. of bitstreams: 1 ribeiro_aem_dr_mar.pdf: 5429311 bytes, checksum: 46ec02b66b16e1dab15ede3597580b99 (MD5) Previous issue date: 2018-02-26 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / A tese ora apresentada trata da literatura infantil e do trabalho modelado como ferramenta de ensino do argumento narrativo e de desenvolvimento da imaginação nas crianças com base nas formulações da Teoria Histórico-Cultural. Segundo essa teoria, experiências educacionais ligadas à arte e às ciências se revelam primordiais na infância, uma vez que representam experiências que promovem novas elaborações e capacitam à criação. Nessa perspectiva, é possível questionar: como a literatura infantil pode motivar o processo de desenvolvimento da imaginação em crianças do primeiro ano do Ensino Fundamental. Interligada a essa, outra questão se apresenta: como o trabalho modelado pode ser utilizado com crianças do primeiro ano do Ensino Fundamental como ferramenta de ensino do argumento narrativo oportunizando experiências enriquecedoras com textos literários de modo que as crianças possam se apropriar da cultura e reelaborá-la, sendo essa reelaboração uma manifestação dos processos de desenvolvimento da imaginação? O objetivo geral foi estabelecer relações sob a ótica da Teoria Histórico-Cultural entre o processo de desenvolvimento do argumento narrativo por meio do trabalho modelado a partir da transmissão vocal (BAJARD, 2007) de contos e fábulas da literatura infantil e o desenvolvimento da imaginação em crianças de uma turma de primeiro ano do Ensino Fundamental. Os objetivos específicos, a partir do geral, se configuram como objetivos-meio. Deste ponto de vista busquei: a) compreender a manifestação criativa da imaginação e do argumento narrativo em crianças do primeiro ano do Ensino Fundamental, a partir da transmissão vocal (BAJARD, 2007) de histórias de literatura infantil; b) elaborar um conjunto de procedimentos didáticos que a um só tempo se constituísse como ferramenta de produção de dados durante o experimento formativo realizado e fosse capaz de contribuir para práticas pedagógicas com a literatura infantil conceituadas como forma de arte e fonte de cultura, com vistas ao máximo desenvolvimento da imaginação, à desmistificação de concepções que entendessem a atividade artística e a criatividade como dons destinados a poucos eleitos. A hipótese de pesquisa era a de que a partir de Contos e Fábulas ao utilizar o trabalho modelado como ferramenta de ensino do argumento narrativo houvesse uma mediação intencional entre as crianças e livros de literatura infantil e seria possível fazer avançar a formação da imaginação. Os percursos metodológicos envolveram levantamento bibliográfico em bases de dados de informações em acervos digitais (Athena, Acervus e Dedalus) e, também, pesquisa de campo, pautada na observação de situações da prática pedagógica; em eventos de experimentação formativa e em entrevista semiestruturada com as crianças, com posterior análise do material coletado a partir dos pressupostos da Teoria Histórico-Cultural. Os resultados demonstram que em relação à prática pedagógica observada as crianças tiveram acesso restrito aos livros de literatura infantil, houve didatização das obras literárias, mas, também, pode ser observada prática de mediação de leitura (BAJARD, 2007). Em relação ao Trabalho Modelado do argumento narrativo (VÉNGUER, VÉNGUER, 1993) houve: internalização do processo de composição; compreensão do argumento dos contos e das fábulas; aspectos do desenvolvimento da argumentação infantil; aspectos do desenvolvimento dos processos de criação. / The thesis presented here deals with children's literature and work modeled as a teaching tool for the narrative argument and development of the imagination in children based on the formulations of Historical-Cultural Theory. According to this theory, educational experiences linked to art and science are primordial in childhood, since they represent experiences that promote new elaborations and enable creation. From this perspective, it is possible to question: how children's literature can motivate the process of imagination development in first-year primary school children. Linked to this, another question arises: how the modeling work can be used with elementary school children as a teaching tool of the narrative argument by providing enriching experiences with literary texts so that the children can appropriate the culture and re-elaborate it, being this re-elaboration a manifestation of the processes of developing the imagination? The general objective was to establish relations from the point of view of the Historical-Cultural Theory between the process of development of the narrative argument through work modeled from the vocal transmission (BAJARD, 2007) of stories and fables of children's literature and the development of the imagination in children of a first year class of Elementary School. The specific objectives, from the general, are configured as medium-goals. From this point of view I sought: a) to understand the creative manifestation of the imagination and the narrative argument in children of the first year of elementary school, from the vocal transmission (BAJARD, 2007) of stories of children's literature; b) to elaborate a set of didactic procedures that at one time was constituted as a tool of data production during the formative experiment carried out and was able to contribute to pedagogical practices with the infantile literature conceptualized like form of art and source of culture, with views to the maximum development of the imagination, to the demystification of conceptions that understood artistic activity and creativity as gifts destined to the few elected. The hypothesis of research was that from Contos and Fábulas using the work modeled as a teaching tool of the narrative argument there was an intentional mediation between children and children's literature books and it would be possible to advance the formation of the imagination. The methodological pathways involved a bibliographic survey in databases of information in digital collections (Athena, Acervus and Dedalus) and, also, field research, based on observation of situations of pedagogical practice; in events of formative experimentation and in a semistructured interview with the children, with later analysis of the material collected from the assumptions of the Historical-Cultural Theory. The results show that in relation to the pedagogical practice observed the children had restricted access to children's literature, there was literacy literacy, but also a practice of reading mediation (BAJARD, 2007). In relation to the Modeling Work of the narrative argument (VEGNER, VENGUER, 1993) there was: internalisation of the composition process; understanding of the argument of tales and fables; aspects of the development of children's arguments; aspects of the development creation process. Educação Educação infantil Anos iniciais do ensino fundamental Trabalho modelado do argumento narrativo Desenvolvimento da imaginação Literatura infantil Teoria histórico-cultural Education Child education Early years of elementary school Patterned work of the narrative argument Development of the imagination Children's literature Historical-cultural theory
77	Synthesis and applications of macroscopic well-aligned multi-walled carbon nanotube films Halonen, N. (Niina) 29 October 2013 (has links) Abstract The main objectives of this thesis are to synthesize macroscopic well-aligned multi-walled carbon nanotube films and, based on their electrical conductivity, porosity and structural uniformity, highlight potential applications for further development. In this thesis, catalytic chemical vapour deposition from ferrocene-xylene precursors is optimized to grow high quality films of long, aligned multi-walled carbon nanotubes on lithographically patterned templates in high (~800ºC) temperatures. The impacts of reaction time, temperature and precursor concentration on MWCNT film quality (film thickness, purity, density and nanotube diameter distribution) are studied. Because of the excellent control of growth selectivity and film thickness inherent to the method, several interesting applications, including solar cell and capacitor electrodes, contact brushes, coolers, particulate filters and catalyst membranes, have been developed for nanotube films in collaboration between Finnish and international research groups over the past few years. In this thesis, advanced capacitor electrodes with improved charge storage and efficient particulate filters are discussed in closer detail. As the high temperatures used for growing high quality carbon nanotubes often cause complications in cases where nanotubes need to be directly integrated with other materials, experiments were also conducted with the aim of making the growth temperature as low as possible. After testing several catalyst and precursor combinations, cobalt nanoparticles deposited on silica surfaces were found to form carbon nanotubes from vaporized cyclopentene oxide precursor already at 470°C. The results show that catalytic chemical vapour deposition is a feasible and versatile method that can be combined with photolithography to produce multi-walled carbon nanotube films with desired footprint area and thickness on various substrates. The demonstrated new applications and technical solutions are expected to contribute to further development leading to competitive practical devices based on carbon nanotubes. / Tiivistelmä Tämän väitöstyön päätavoitteina ovat makroskooppisten, yhdensuuntaisista moniseinämäisistä hiilinanoputkista koostuvien kalvojen valmistaminen ja sovellutusten esittäminen perustuen kalvojen sähkönjohtavuuteen, huokoisuuten ja rakenteelliseen yhdenmukaisuuteen. Katalyyttis-kemiallinen höyryfaasikasvatusmenetelmä on optimoitu korkealaatuisten, yhdensuuntaisista, pitkistä moniseinämäisistä hiilinanoputkista koostuvien kalvojen tuottamiseen korkeissa lämpötiloissa (~800ºC) fotolitografialla kuvioiduille kasvualustoille käyttäen ferroseeni/ksyleeni-lähtöainetta. Reaktioajan, lämpötilan ja lähtöainepitoisuuden vaikutusta nanoputkikalvon laatuun on tutkittu tarkastelemalla kalvon paksuutta, puhtautta, tiheyttä ja nanoputkien läpimittajakaumaa. Erinomaisen kasvuselektiivisyyden ja kalvon paksuuden kontrolloimisen ansiosta nanoputkikalvoja voidaan räätälöidä useisiin mielenkiintoisiin sovellutuksiin (esim. aurinkokennot ja kondensaattorin elektrodit, hiiliharjat, jäähdyttimet, partikkelisuodattimet ja katalyyttikalvot), joita olemme kehittäneet viime vuosina yhdessä suomalaisten ja kansainvälisten tutkimusryhmien kanssa. Tässä väitöstyössä on tarkasteltu lähemmin uudentyyppisiä kondensaattorielektrodeja, joilla on parantunut sähkövarauksen varastointikyky, sekä tehokkaita partikkelisuodattimia. Hiilinanoputkien kasvattaminen korkeissa lämpötiloissa aiheuttaa usein ongelmia integroitaessa nanoputkia toisiin materiaaleihin. Tästä johtuen tutkimuksessa pyrittiin saamaan nanoputkien kasvatuslämpötila mahdollisimman alhaiseksi testaamalla useita lähtöaine-katalyytti-kombinaatioita, joista koboltti-nanopartikkelit piidioksidin päällä ja syklopenteenioksidi lähtöaineena muodostivat hiilinanoputkia jo 470°C:ssa. Tulosten perusteella katalyyttis-kemiallinen höyryfaasikasvatusmenetelmä yhdistettynä fotolitografiaan on hyvin monipuolinen tapa tuottaa moniseinämäisiä hiilinanoputkia halutulla kuviolla ja kalvonpaksuudella erilaisille substraateille. Tässä väitöstyössä demonstroitujen uusien sovellutusten ja teknisten ratkaisujen odotetaan johtavan uusiin, hiilinanoputkiin perustuviin kilpailukykyisiin käytännön laitteisiin. catalytic chemical vapour deposition gas permeability low temperature synthesis of CNTs multi-walled carbon nanotubes particulate filtering patterned electrodes supercapacitors kaasunläpäisevyys kuvioidut elektrodit moniseinämäiset hiilinanoputket partikkelisuodatus superkondensaattorit
78	Rôle du couplage N-cadhérine/actine dans les mécanismes de motilité et de différentiation synaptique dans les neurones / Mechanical coupling between N-cadherin and actin in motility mechanisms and in synaptic differentiation in neurons Garcia, Mikael 21 November 2013 (has links) Les protéines d’adhésions homophiles N-cadhérine jouent un rôle majeur dans le développement du cerveau, notamment en agissant sur la croissance et la plasticité synaptique. Au cours de ma thèse, j’ai étudié le rôle de la N-cadhérine dans ces deux processus en utilisant des neurones issus de cultures primaires déposés sur des substrats micropatternés. Ces substrats sont recouverts de N-cadhérine purifiée afin d’induire des adhésions N-cadhérines sélectives au niveau de micro-motifs régulièrement espacés. Mes deux premières études sont basées sur le modèle d’embrayage moléculaire, décrivant le processus par lequel la motilité du cytosquelette d’actine se couple aux adhésions au niveau de la membrane cellulaire afin de générer des forces de traction aux zones de contact avec le substrat, permettant ainsi l’avancée cellulaire (Giannone et al., 2009). Plusieurs études ont mis en avant l’existence d’un tel modèle (Mitchison et Kirschner, 1988 ; Suter et Forscher, 1998), cependant le mécanisme exact permettant d’expliquer ce couplage mécanique de l’actine aux protéines d’adhésions reste mal connu. Via des techniques de pinces optiques, des travaux précédemment menés dans l’équipe ont prouvé l’existence d’un couplage entre le flux d’actine et les adhésions N-cadhérine permettant la migration du cône de croissance (Bard et al., 2008). Cette technique n’a cependant pas permis la visualisation directe de l’engagement d’un tel mécanisme. Nous avons donc couplé l’utilisation des substrats micro-patternés à la microscopie haute résolution sptPALM/TIRF afin de visualiser directement la dynamique des protéines impliquées dans l’embrayage moléculaire. Dans le premier article, j’ai montré pour la première fois l’existence d’interactions transitoires entre le flux d’actine et les adhésions N-cadhérines au niveau du cône de croissance, reflétant un embrayage glissant à l’échelle de la molécule unique (Garcia et al., en préparation). Dans le second article, en travaillant sur des neurones plus matures, nous avons pu montrer l’engagement d’un embrayage moléculaire trans-synaptique entre adhésions N-cadhérines et flux d’actine permettant la stabilisation du filopode dendritique et ainsi sa transition en épine mature (Chazeau/Garcia et al., en préparation). J’ai également participé à une troisième étude dans laquelle j’ai observé l’effet des substrats micropatternés recouverts de N-cadhérine, sur la synaptogenèse. J’ai ainsi pu prouver que la N-cadhérine déposée sur les micro-motifs, stimule la croissance dendritique et axonale et joue un rôle prépondérant dans la maturation morphologique des neurones. Cependant, la N-cadhérine est incapable d’induire la formation de synapses contrairement aux protéines d’adhésion neurexine/neuroligine ou SynCam (Czöndör et al., 2013). / The homophilic adhesion molecule N-cadherin plays major roles in brain development, notably affecting axon outgrowth and synaptic plasticity. During my PhD work, I addressed the role of N-cadherin in these two processes, using primary neurons cultured on micro-patterned substrates. These substrates are coated with purified N-cadherin to trigger selective N-cadherin adhesions in a spatially controled manner. My two first studies are based on the “molecular clutch” paradigm, by which the actin motile machinery is coupled to adhesion at the cell membrane to generate forces on the substrate and allow cells to move forward (Giannone et al., 2009). Many publications have provided evidence for such a mechanism (Mitchison et Kirschner, 1988 ; Suter et Forscher, 1998), but the exact mechanisms underlying the molecular coupling between the actin retrograde flow and adhesion proteins remain elusive. The team previously inferred, using optical tweezers, that a molecular clutch between the actin flow and N-cadherin adhesions drives growth cone migration (Bard et al., 2008), but could not achieve a direct visualization of the engagement process with this technique. Here, we combined the use of micropattern substrates with high resolution microscopy sptPALM/TIRF to visualize directly the dynamics of the main proteins involved in the molecular clutch. In my first paper, I reveal for the first time transient interactions between the actin flow and N-cadherin adhesions in growth cones, reflecting a slipping clutch process at the individual molecular level (Garcia et al., in preparation). In a second study, working with more mature neurons, we revealed that engagement of a molecular clutch between trans-synaptic N-cadherin adhesions and the actin flow underlies the stabilization of dendritic filopodia into mature spines (Chazeau/Garcia et al., in preparation). I also participated to a third study, where I observed the effect of N-cadherin coated substrates on synaptogenesis. I showed that, although N-cadherin on micro-patterned substrates stimulated axonal and dendritic elongation and played a major role in morphological maturation, it was not able to induce synapse formation like neurexin/neuroligin or SynCAM adhesions (Czöndör et al., 2013). Substrats micro-patternés Actine N-cadhérine Motilité Migration du cône de croissance Filopode dendritique Épine dendritique Micro-patterned substrates Actin N-cadherin Motility Growth cone migration Dendritic filopodia Dendritic spine
79	Controlled Transfer Of Macroscopically Organized Nanoscopically Patterned Sub–10 nm Features onto 2D Crystalline and Amorphous Materials Tyson C Davis (9121889) 05 August 2020 (has links) <div>Surface level molecules act as an interface that mediates between the surface and the environment. In this way, interfacial molecules are responsible for conferring characteristics of relevance to many modern material science problems, such as electrical conductivity and wettability. For many applications, such as organic photovoltaics and nanoelectronics, macroscopic placement of chemical patterns at the sub-10 nm must be achieved to advance next generation device applications.</div><div><br></div><div>In the work presented here, we show that sub-10 nm orthogonal features can be prepared by translating the building principles of the lipid bilayer into striped phase lipids on 2D materials (e.g. highly ordered pyrolytic graphite (HOPG), MoS2). Macroscopic patterning of these nanoscopic elements is achieved via Langmuir Schafer deposition of polymerizable diyne amphiphiles. On the Langmuir trough, amphiphiles at the air water interface are ordered into features that can be observed on the macroscale using Brewster angle microscopy. Upon contact of the 2D material with the air-water interface the macroscopic pattern on the trough is transferred to the 2D material creating a macroscopic pattern consisting of sub-10 nm orthogonal chemistries. We also show here how hierarchical ordering can be accomplished via noncovalent microcontact printing of amphiphiles onto 2D materials. Microcontact printing allows a greater measure of control over the placement and clustering of interfacial molecules.</div><div><br></div><div>The alkyl chain/surface enthalpy has a great deal of influence over the ordering of amphiphiles at the sub-nm scale. Here, we examine this influence by depositing diyne amphiphiles onto MoS2 which has a weaker alkyl adsorption enthalpy compared to HOPG. We found that dual-chain amphiphiles deposited on MoS2 adopt a geometry that maximized the molecule-molecule interaction compared to the geometry adopted on HOPG.</div><div><br></div><div>Finally, we show how the hierarchical pattern of diyne amphiphiles can be transferred off of the 2D material onto an amorphous material. This is done by reacting the amorphous material with the conjugated backbone of the diyne moiety through a hydrosilylation reaction to exfoliate the film from the 2D crystalline material. The resulting polymer ‘skin’ has many applications were controlling interfacial properties of an amorphous material is important.</div> Supramolecular Chemistry Chemical Characterisation of Materials Colloid and Surface Chemistry Noncovalent functionalization 2D Materials Hierarchical Patterned Surfaces Self-assembly self-assembled monolayer Langmuir-Schaefer transfer surface hydrosilylation reaction
80	Direct laser interference patterning for decreased bacterial attachment Guenther, Denise, Valle, Jaoine, Burgui, Saioa, Gil, Carmen, Solano, Cristina, Toledo-Arana, Alejandro, Helbig, Ralf, Werner, Carsten, Lasa, Inigo, Lasagni, Andrés F. 06 August 2019 (has links) In the past 15 years, many efforts were made to create functionalized artificial surfaces showing special anti-bacterial and anti-biofouling properties. Thereby, the topography of medical relevant materials plays an important role. However, the targeted fabrication of promising surface structures like hole-, lamella- and pyramid-like patterns with feature sizes in the sub-micrometer range in a one-step process is still a challenge. Optical and e-beam lithography, molding and selfassembly layers show a great potential to design topographies for this purpose. At the same time, most of these techniques are based on sequential processes, require masks or molds and thus are very device relevant and time consuming. In this work, we present the Direct Laser Interference Patterning (DLIP) technology as a capable method for the fast, flexible and direct fabrication of periodic micrometer- and submicrometer structures. This method offers the possibility to equip large plain areas and curved devices with 1D, 2D and 3D patterns. Simple 1D (e.g. lines) and complex 3D (e.g. lamella, pillars) patterns with periodic distances from 0.5 μm to 5 μm were fabricated on polymeric materials (polyimide, polystyrene). Subsequently, we characterized the adhesion behavior of Staphylococcus epidermidis and S. aureus bacteria under in vitro and in vivo conditions. The results revealed that the topographies have a significant impact on bacteria adhesion. On the one side, one-dimensional line-like structures especially with dimensions of the bacteria enhanced microbe attachment. While on the other hand, complex three-dimensional patterns prevented biofilm formation even after implantation and contamination in living organisms. info:eu-repo/classification/ddc/620 ddc:620

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