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Mostrando 161 - 180 Resultados de 804 Para Buscar '"Origami"', tiempo de consulta: 0.16s Limitar resultados
  1. 161
    “…Geometric compatibility constraints dictate the mechanical response of soft systems that can be utilized for the design of mechanical metamaterials such as the negative Poisson’s ratio Miura-ori origami crease pattern. Here, we develop a formalism for linear compatibility that enables explicit investigation of the interplay between geometric symmetries and functionality in origami crease patterns. …”
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    Discrete symmetries control geometric mechanics in parallelogram-based origami
  2. 162
    “…Fourth, this review highlights the diverse applications of 4D origami-driven soft robots in actuators, sensors, and bionics. …”
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    4D Multiscale Origami Soft Robots: A Review
  3. 163
    por Zhu, Yi, Filipov, Evgueni T.
    Publicado 2022
    “…This work harnesses interpretable machine learning methods to address the challenging inverse design problem of origami-inspired systems. We established a work flow based on decision tree-random forest method to fit origami databases, containing both design features and functional performance, and to generate human-understandable decision rules for the inverse design of functional origami. …”
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    Harnessing interpretable machine learning for holistic inverse design of origami
  4. 164
    “…Self-assembly is usually considered a parallel process while self-folding and origami are usually considered to be serial processes. …”
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    Self-Assembly, Self-Folding, and Origami: Comparative Design Principles
  5. 165
    “…In this study, we propose a method to fabricate “Origami-TEG”, a TEG with an origami structure that enables both flexibility and the usage of high-performance rigid materials by self-folding. …”
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    Origami-Type Flexible Thermoelectric Generator Fabricated by Self-Folding
  6. 166
    “…Just as a single polypeptide strand can self-fold into a complex 3D structure, a single strand of DNA can self-fold into DNA origami. Most DNA origami structures (i.e., the scaffold-staple and DNA tiling systems) utilize hundreds of short single-stranded DNA. …”
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    A single strand: A simplified approach to DNA origami
  7. 167
    “…[Image: see text] DNA origami enables the creation of complex 3D shapes from genetic material. …”
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    Active Nuclear Import of Mammalian Cell-Expressible DNA Origami
  8. 168
    “…Here, we develop a DNA origami-based metallization reaction system to prescribe multimetallic nanopatterns with peroxidase-like activities. …”
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    High-entropy alloy nanopatterns by prescribed metallization of DNA origami templates
  9. 169
    “…[Image: see text] Wireframe DNA origami can be used to fabricate virus-like particles for a range of biomedical applications, including the delivery of nucleic acid therapeutics. …”
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    Evaluation of Nonmodified Wireframe DNA Origami for Acute Toxicity and Biodistribution in Mice
  10. 170
    “…[Image: see text] The progress of the scaffolded DNA origami technology has enabled the construction of various dynamic nanodevices imitating the shapes and motions of mechanical elements. …”
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    Multi-Reconfigurable DNA Origami Nanolattice Driven by the Combination of Orthogonal Signals
  11. 171
    “…[Image: see text] Although for many purposes, low concentrations of DNA origami are sufficient, certain applications such as cryo electron microscopy, measurements involving small-angle X-ray scattering, or in vivo applications require high DNA origami concentrations of >200 nM. …”
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    Lyophilization Reduces Aggregation of Three-Dimensional DNA Origami at High Concentrations
  12. 172
    “…Recent advances in three-dimensional printing technologies provide one way not only to speed up freeform fabrication but also to exert programmable control over mechanical properties. Besides, origami-inspired structures, origami-inspired metamaterials, and even origami-inspired robotics primarily demonstrate the promising potential for innovative inspirations of engineering solutions. …”
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    Origami spring–inspired metamaterials and robots: An attempt at fully programmable robotics
  13. 173
    “…Here, a type of magnetically actuated Janus origami robot is readily fabricated for versatile cross-scale droplet manipulation including three-dimensional transport, merging, splitting, dispensing and release of daughter droplets, stirring and remote heating. …”
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    Magnetic Janus origami robot for cross-scale droplet omni-manipulation
  14. 174
    por Wang, Yuchen, Jin, Xin, Castro, Carlos
    Publicado 2023
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    Accelerating the characterization of dynamic DNA origami devices with deep neural networks
  15. 175
    “…Applying tessellated origami patterns to the design of mechanical materials can enhance properties such as strength-to-weight ratio and impact absorption ability. …”
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    4D printed origami-inspired accordion, Kresling and Yoshimura tubes
  16. 176
    “…Inspired by the intricate folding mechanism in earwig hindwings, we aimed to develop artificial wings with similar high-folding ratios. By leveraging an origami hinge, which is a compliant mechanism, we successfully designed and prototyped wings capable of opening and folding in the wind, which helps reduce the surface area by a factor of seven. …”
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    Earwig-inspired foldable origami wing for micro air vehicle gliding
  17. 177
    “…We recently adapted this ‘scaffolded DNA origami’ method to producing 3D shapes formed as pleated layers of double helices constrained to a honeycomb lattice. …”
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    Rapid prototyping of 3D DNA-origami shapes with caDNAno
  18. 178
    “…In this work, we report on a hollow but rigid tetrahedron framework of 75 nm strut length constructed with the DNA origami method. Flexible hinges at each of their four joints provide a means for structural variability of the object. …”
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    A Structurally Variable Hinged Tetrahedron Framework from DNA Origami
  19. 179
    “…The idea is a stepwise transfer of common functional assays first to the surface of a DNA origami, which can be checked at the ensemble level, and then to the microscope glass slide for single-molecule inquiry using the DNA origami as a transfer platform. …”
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    DNA origami as biocompatible surface to match single-molecule and ensemble experiments
  20. 180
    “…[Image: see text] Scaffolded DNA origami enables the fabrication of a variety of complex nanostructures that promise utility in diverse fields of application, ranging from biosensing over advanced therapeutics to metamaterials. …”
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    Efficient Production of Single-Stranded Phage DNA as Scaffolds for DNA Origami
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