Search results for "origami"

showing 10 items of 43 documents

Papīra locīšanas prasmju apguves veicināšanas iespējas sešgadīgiem bērniem

2019

Darba autors ir Iveta Bankova. Darba temats ir papīra locīšanas prasmju apguves veicināšanas iespējas sešgadīgiem bērniem. Pētījuma mērķis ir teorētiski analizēt un atklāt sešgadīgu bērnu papīru locīšanas prasmju apguves iespējas pirmsskolas izglītības iestādē. Hipotēze: locīšanas prasmes bērni apgūst vislabāk, ja: •tiek ņemts vērā bērna intereses un vajadzības; • mācību procesā izmanto didaktikas principus no vieglākā uz sarežģīto. Pirmajā nodaļā tiek analizēts prasmju jēdziens dažādu autoru I.Žogles, A.Karules, N.Poddjakovas, V.Hibneres, L.Grasmanes, V.Avotiņa skatījumā. Skaidrots prasmju jēdziens pirmsskolas mācību kontekstā. Otrajā nodaļā izzināta un analizēta psihologu V.Renģes, L.Grīn…

papīru locīšana5 – 6 gadus veci bērniorigamiSkolas pedagoģijapirmsskolaprasme

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Nanodevices by DNA based gold nanostructures

2017

In this thesis DNA based structures were utilized to create gold nanostructures for nanosensing and nanoelectronic applications. In the past, both of these ﬁelds have been dominated by the conventional lithography methods, e.g., electron beam lithography and UV-lithography, but more recently scaling down the components by these techniques has become increasingly more complex and costly. Especially in the micro- and nanoelectronics, the increase in the component density and thus computational power would require fabrication of sub-10-nm components, which is challenging for the top-down approaches. Aforementioned developments have led researchers to seek alternative methods to fabricate these…

electrostatic manipulationdark field microscopyCoulomb blockadenanoactuatorDNA hybridizationdifferential conductancesurface plasmonchimeric avidinoptiset ominaisuudetkultananorakenteetbiotinorigamiTX-tile structureanturitsingle electron transistorhairpin-DNAnanoelektroniikkasähköiset ominaisuudetDNAself-assemblygold nanoparticlesimmobilizationtransistoritfunctionalizationnanohiukkaset

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Biotemplated Lithography of Inorganic Nanostructures (BLIN) for Versatile Patterning of Functional Materials

2020

Here, we present a highly parallel fabrication method dubbed biotemplated lithography of inorganic nanostructures (BLIN) that enables large-scale versatile substrate patterning of metallic and semi...

NanostructureMaterials scienceFabricationNanotechnology02 engineering and technologySubstrate (printing)010402 general chemistry021001 nanoscience & nanotechnology01 natural sciences0104 chemical sciencesNanolithographyDNA nanotechnologyDNA origamiGeneral Materials Science0210 nano-technologyLithographyACS Applied Nano Materials

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DNA as Building Material at the Nanoscale: From Concepts to Software-aided Design

2017

chemistry.chemical_compoundSoftwareMaterials scienceDNA origami cadnano DNA aptamerschemistrybusiness.industryDNA origamiNanotechnologyDNA AptamersbusinessNanoscopic scaleDNA

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Prospective Cancer Therapies Using Stimuli‐Responsive DNA Nanostructures

2021

Financial support by the Emil Aaltonen Foundation, the Sigrid Jusélius Foundation, the Magnus Ehrnrooth Foundation, Academy of Finland (grants no. 317042 and 331151), the Jane and Aatos Erkko Foundation and the Vilho, Yrjö and Kalle Väisälä Foundation of the Finnish Academy of Science and Letters is gratefully acknowledged Nanostructures based on DNA self-assembly present an innovative way to address the increasing need for target-specific delivery of therapeutic molecules. Currently, most of the chemotherapeutics being used in clinical practice have undesired and exceedingly high off-target toxicity. This is a challenge in particular for small molecules, and hence, developing robust and ef…

Polymers and PlasticsStimuli responsiveComputer scienceAptameraptamersBioengineeringNanotechnologyAntineoplastic Agents02 engineering and technology010402 general chemistry01 natural sciencesBiomaterialsDrug Delivery Systemsstimuli-based drug deliveryDna nanostructuresNeoplasmsDNA nanotechnologyMaterials ChemistryDNA origamiHumansDNA nanotechnologyimmunostimulationchemotherapeuticsfungiDNA021001 nanoscience & nanotechnologyBiocompatible materialSmall molecule3. Good health0104 chemical sciencesNanostructuresDrug deliveryDNA origami0210 nano-technologyBiotechnology

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2019

Structural DNA nanotechnology provides a viable route for building from the bottom-up using DNA as construction material. The most common DNA nanofabrication technique is called DNA origami, and it allows high-throughput synthesis of accurate and highly versatile structures with nanometer-level precision. Here, it is shown how the spatial information of DNA origami can be transferred to metallic nanostructures by combining the bottom-up DNA origami with the conventionally used top-down lithography approaches. This allows fabrication of billions of tiny nanostructures in one step onto selected substrates. The method is demonstrated using bowtie DNA origami to create metallic bowtie-shaped an…

0303 health sciencesNanostructureGeneral Immunology and MicrobiologyGeneral Chemical EngineeringGeneral NeuroscienceNanotechnology02 engineering and technologySubstrate (printing)021001 nanoscience & nanotechnologyGeneral Biochemistry Genetics and Molecular Biology03 medical and health sciencesNanolithographyDNA nanotechnologyDNA origami0210 nano-technologyLayer (electronics)LithographyPlasmon030304 developmental biologyJournal of Visualized Experiments

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Large-Scale Formation of DNA Origami Lattices on Silicon

2023

In recent years, hierarchical nanostructures have found applications in fields like diagnostics, medicine, nano-optics, and nanoelectronics, especially in challenging applications like the creation of metasurfaces with unique optical properties. One of the promising materials to fabricate such nanostructures has been DNA due to its robust self-assembly properties and plethora of different functionalization schemes. Here, we demonstrate the assembly of a two-dimensional fishnet-type lattice on a silicon substrate using cross-shaped DNA origami as the building block, i.e., tile. The effects of different environmental and structural factors are investigated under liquid atomic force microscopy…

liquidspiinanorakenteetlatticesGeneral Chemical EngineeringMaterials ChemistrysiliconGeneral ChemistryDNA origamiDNAatomivoimamikroskopiadeposition

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Conductivity measurements of DNA TX tile and origami structures

2011

Tässä tutkielmassa on tutkittu kahden erilaisen itsejärjestyvän DNA-rakenteen sähkönjohtavuutta nanomittakaavassa. Ensimmäinen rakenteista on suorakaiteenmuotoinen kaksiulotteinen DNA-levy kooltaan noin 70×100 nm2 toisen ollessa selvästi kapeampi, noin 10×60 nm2. Suurin ero rakenteiden välillä on valmistusmenetelmä: isompi rakenne on valmistettu origamitekniikalla ja pienempi niin sanottua tiilimenetelmää käyttäen. Molekyylielektroniikan kannalta DNA:n sähkönjohtavuus on oleellinen asia, sillä DNA on itsejärjestäytymisominaisuuksiensa vuoksi osoittautunut hyvin lupaavaksi molekyyliksi: yksinkertaisten nanoskaalan laitteiden valmistus käyttäen DNA-pohjaisia menetelmiä on jo mahdollista. Työs…

origamitrakenneimpedanssispektroskopiavaihtovirtamittaustasavirtamittausTXnanotekniikkaDNAdielektroforeesisähkönjohtavuusorigaminanoelektrodinanoteknologiamolekyylielektroniikkailmankosteusitsejärjestäytyminen

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DNA origami as a nanoscale template for protein assembly

2009

We describe two general approaches to the utilization of DNA origami structures for the assembly of materials. In one approach, DNA origami is used as a prefabricated template for subsequent assembly of materials. In the other, materials are assembled simultaneously with the DNA origami, i.e. the DNA origami technique is used to drive the assembly of materials. Fabrication of complex protein structures is demonstrated by these two approaches. The latter approach has the potential to be extended to the assembly of multiple materials with single attachment chemistry.

Materials scienceMechanical EngineeringBioengineeringNanotechnologyDNAGeneral ChemistryNanostructuresComplex proteinMechanics of MaterialsMultiprotein ComplexesDNA nanotechnologyNanotechnologyDNA origamiGeneral Materials ScienceStreptavidinSelf-assemblyProtein MultimerizationElectrical and Electronic EngineeringNanoscopic scaleNanotechnology

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Trapping and Immobilization of DNA Molecules Between Nanoelectrodes

2011

DNA is one of the most promising molecules for nanoscale bottom-up fabrication. For both scientific studies and fabrication of devices, it is desirable to be able to manipulate DNA molecules, or self--assembled DNA constructions, at the single unit level. Efficient methods are needed for precisely attaching the single unit to the external measurement setup or the device structure. So far, this has often been too cumbersome to achieve, and consequently most of the scientific studies are based on a statistical analysis or measurements done for a sample containing numerous molecules in liquid or in a dry state. Here, we explain a method for trapping and attaching nanoscale double-stranded DNA …

chemistry.chemical_compoundFabricationMaterials scienceNanostructurechemistryMoleculeDNA origamiNanotechnologyTrappingDielectrophoresisNanoscopic scaleDNA

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