Manipulation of biological samples using micro and nano techniques

Abstract: The constant interest in handling, integrating and understanding biological systems of interest for the biomedical field, the pharmaceutical industry and the biomaterial researchers demand the use of techniques that allow the manipulation of biological samples causing minimal or no damage to their natural structure. Thanks to the advances in micro- and nanofabrication during the last decades several manipulation techniques offer us the possibility to image, characterize and manipulate biological material in a … Show more

“…Linking of our macroscopic world to the nanoscopic one of nanotubes, nanofibers and nanoparticles is a technological challenge. Fortunately, thanks to advances in micro-and nano-fabrication, several techniques and instruments have emerged to help scientists overcome the obstacles of size when interacting with tiny biological entities (Castillo et al, 2009. Apart from being able to find, grasp, push or move these biological objects to a desired location it is important to avoid any damage to the nanostructure as a result of the interaction between the manipulation instrument and the object to be moved.…”

Self–Assembled Peptide Nanostructures for Biomedical Applications: Advantages and Challenges

“…Linking of our macroscopic world to the nanoscopic one of nanotubes, nanofibers and nanoparticles is a technological challenge. Fortunately, thanks to advances in micro-and nano-fabrication, several techniques and instruments have emerged to help scientists overcome the obstacles of size when interacting with tiny biological entities (Castillo et al, 2009. Apart from being able to find, grasp, push or move these biological objects to a desired location it is important to avoid any damage to the nanostructure as a result of the interaction between the manipulation instrument and the object to be moved.…”

Self–Assembled Peptide Nanostructures for Biomedical Applications: Advantages and Challenges

“…The AFM offers more flexibility to researchers; it is capable of manoeuvring a diverse range of materials from nanoparticles 125,126 and atoms 115,116 to biological cells, 127 be it under vacuum or immersed in liquid. The rudimentary method of nanoparticle manipulation with an AFM uses the probe tip to push, pull and slide nanoparticles around on a substrate, positioning them into desired configurations.…”

Additive nanomanufacturing – A review

“…Therefore, water-containing samples cannot be directly observed inside an SEM or TEM 152,153 . Environmental scanning electron microscopes (ESEMs) overcome this limitation and permit the observation of liquid-phase materials, such as biological cells without metal coating and other electrically insulating materials that use a special secondary electron detector 86,154 . The first hybrid AFM/ESEM system was developed for accurate topography measurements and tip-sample interaction observations 52,155 .…”

Recent advances in nanorobotic manipulation inside scanning electron microscopes