Your search keyword '"Zeolite L nanocontainers"' showing total 2 results

1. Optical assembly of bio-hybrid micro-robots.

Author

Barroso, Álvaro, Landwerth, Shirin, Woerdemann, Mike, Alpmann, Christina, Buscher, Tim, Becker, Maike, Studer, Armido, and Denz, Cornelia

Abstract

The combination of micro synthetic structures with bacterial flagella motors represents an actual trend for the construction of self-propelled micro-robots. The development of methods for fabrication of these bacteria-based robots is a first crucial step towards the realization of functional miniature and autonomous moving robots. We present a novel scheme based on optical trapping to fabricate living micro-robots. By using holographic optical tweezers that allow three-dimensional manipulation in real time, we are able to arrange the building blocks that constitute the micro-robot in a defined way. We demonstrate exemplarily that our method enables the controlled assembly of living micro-robots consisting of a rod-shaped prokaryotic bacterium and a single elongated zeolite L crystal, which are used as model of the biological and abiotic components, respectively. We present different proof-of-principle approaches for the site-selective attachment of the bacteria on the particle surface. The propulsion of the optically assembled micro-robot demonstrates the potential of the proposed method as a powerful strategy for the fabrication of bio-hybrid micro-robots. [ABSTRACT FROM AUTHOR]

Published

2015

2. Optical assembly of bio-hybrid micro-robots

Author

Christina Alpmann, Armido Studer, Maike Becker, Shirin Landwerth, Cornelia Denz, Mike Woerdemann, Álvaro Barroso, and Tim Buscher

Subjects

Holographic optical tweezers, Fabrication, Materials science, Non-spherical shape, Optical Tweezers, Holography, Biomedical Engineering, Micro-robots, Nanotechnology, Zeolite L nanocontainers, Propulsion, Article, law.invention, Micromanipulation, law, Lab-On-A-Chip Devices, Molecular Biology, business.industry, Robotics, Bio-hybrid systems, Equipment Design, Nanostructures, Optical tweezers, Zeolites, Robot, Artificial intelligence, business, Realization (systems), Bacillus subtilis

Abstract

The combination of micro synthetic structures with bacterial flagella motors represents an actual trend for the construction of self-propelled micro-robots. The development of methods for fabrication of these bacteria-based robots is a first crucial step towards the realization of functional miniature and autonomous moving robots. We present a novel scheme based on optical trapping to fabricate living micro-robots. By using holographic optical tweezers that allow three-dimensional manipulation in real time, we are able to arrange the building blocks that constitute the micro-robot in a defined way. We demonstrate exemplarily that our method enables the controlled assembly of living micro-robots consisting of a rod-shaped prokaryotic bacterium and a single elongated zeolite L crystal, which are used as model of the biological and abiotic components, respectively. We present different proof-of-principle approaches for the site-selective attachment of the bacteria on the particle surface. The propulsion of the optically assembled micro-robot demonstrates the potential of the proposed method as a powerful strategy for the fabrication of bio-hybrid micro-robots.

Published

2015