Utilization and control of bioactuators across multiple length scales. - Wikidata - wikimedia - TriplyDB

Utilization and control of bioactuators across multiple length scales.

Utilization and control of bioactuators across multiple length scales.

http://www.wikidata.org/entity/Q38171930

about

Mechanical Characterization and Shape Optimization of Fascicle-Like 3D Skeletal Muscle Tissues Contracted with Electrical and Optical Stimuli.Optogenetic skeletal muscle-powered adaptive biological machines Three-dimensionally printed biological machines powered by skeletal muscle.Self-assembled insect muscle bioactuators with long term function under a range of environmental conditions.Phototactic guidance of a tissue-engineered soft-robotic ray.Molecular machines - a new dimension of biological sciences.A modular approach to the design, fabrication, and characterization of muscle-powered biological machines.Magnetic steering control of multi-cellular bio-hybrid microswimmers.Development and characterization of muscle-based actuators for self-stabilizing swimming biorobots.Dynamic Model for Characterizing Contractile Behaviors and Mechanical Properties of a Cardiomyocyte.Biomimicry, Biofabrication, and Biohybrid Systems: The Emergence and Evolution of Biological Design.Fabrication and characterization of optogenetic, multi-strip cardiac muscles.Damage, Healing, and Remodeling in Optogenetic Skeletal Muscle Bioactuators.Put more 'nano' in robotics.Dynamic and Active Proteins: Biomolecular Motors in Engineered Nanostructures.Using confined bacteria as building blocks to generate fluid flow.Cell culture on microfabricated one-dimensional polymeric structures for bio-actuator and bio-bot applications.

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Utilization and control of bioactuators across multiple length scales.

http://www.wikidata.org/entity/Q38171930

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Utilization and control of bioactuators across multiple length scales.

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Utilization and control of bioactuators across multiple length scales.

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Utilization and control of bioactuators across multiple length scales.

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Utilization and control of bioactuators across multiple length scales.

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H Harry Asada

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Rashid Bashir

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Vincent Chan

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P2860

Myosin-V is a processive actin-based motor

Folding DNA to create nanoscale shapes and patterns

A swimming robot actuated by living muscle tissue

Identification of a novel force-generating protein, kinesin, involved in microtubule-based motility

Molecular robots guided by prescriptive landscapes.

Automated drug screening with contractile muscle tissue engineered from dystrophic myoblasts

Flagellated Magnetotactic Bacteria as Controlled MRI-trackable Propulsion and Steering Systems for Medical Nanorobots Operating in the Human Microvasculature.

High-speed mapping of synaptic connectivity using photostimulation in Channelrhodopsin-2 transgenic mice

Creating living cellular machines

Room temperature operable autonomously moving bio-microrobot powered by insect dorsal vessel tissue

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653-670

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scholarly article

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10.1039/C3LC50989C

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4

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14

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2014-02-01T00:00:00Z

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