Topic
Nanobiotechnology
About: Nanobiotechnology is a research topic. Over the lifetime, 796 publications have been published within this topic receiving 46309 citations. The topic is also known as: bionanotechnology & nanobiology.
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TL;DR: A proof-of-concept platform demonstrates the feasibility of nanopore-based sequencing of polypeptide chains and its applications in medicine and materials science.
Abstract: A proof-of-concept platform demonstrates the feasibility of nanopore-based sequencing of polypeptide chains.
1 citations
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01 Jan 2019TL;DR: Main applications and opportunities of nanotechnology in the agri-food sector is shown in Fig. 10.1.
Abstract: Nanotechnology and biotechnology enjoy a great deal of overlap in many research laboratories. Nanobiotechnology, as the name suggests, refers to the interface between, and convergence of, nano- and biotechnology. It is a multitude of various disciplines such as chemistry, physics, biology and engineering (Fakruddin et al. 2012). Main applications and opportunities of nanotechnology in the agri-food sector is shown in Fig. 10.1.
1 citations
01 Jan 2012
TL;DR: The sensitivity and performance of biosensors is being improved by using nanomaterials for their construction, and Nano sensors deliver real-time information about the antibodies to antigens, cell receptors to their glands, and DNA and RNA to nucleic acid with a complimentary sequence.
Abstract: A biosensor is an analytical device containing an immobilized biological material (enzyme, antibody, nucleic acid, hormone, organelle or whole cell) which can specifically interacts with an analyte and produce physical, chemical or electrical signals that can be measured. Nanobiotechnology can have a combination of the classical micro-technology with a molecular biological approach. Biotechnology uses the knowledge and techniques of biology to manipulate molecular, genetic, and cellular processes to develop products and services, and is used in diverse fields from medicine to agriculture. Nanotechnology is playing an increasingly important role in the development of biosensors. The sensitivity and performance of biosensors is being improved by using nanomaterials for their construction. Nano sensors deliver real-time information about the antibodies to antigens, cell receptors to their glands, and DNA and RNA to nucleic acid with a complimentary sequence. Thus the aim of
1 citations