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Nanotechnologies for Neurosciences

2018
The applications of nanotechnology in the field of neuroscience can be divided into two main strands: (i) applications in the field of basic research and (ii) applications in the clinical field. In the first area we deal with: (a) developing and applying nano-engineered materials to promote adhesion, growth and neuronal differentiation and to ...
A. Aloisi, D. Pisignano, R. Rinaldi
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Nanotechnology in cosmetics

Food and Chemical Toxicology, 2015
Nanomaterials are being used in cosmetic products for various effects. However, their use also raises potential safety concerns. Some of these concerns can be addressed by determining the type of nanomaterials used, as well as stability, potential for skin absorption, route of exposure, and how they are formulated in cosmetic products.
Linda M, Katz   +2 more
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Nanotechnology in Neuromodulation

2012
As clinical neuromodulation moves beyond electrical stimulation with macroelectrodes, the need becomes apparent for techniques that interact with the nervous system on its own level (neurons and glia) and using its own mechanisms (electrical and chemical).
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Nanotechnology and biosensors

Biotechnology Advances, 2004
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. The use of these nanomaterials has allowed the introduction of many new signal transduction technologies in biosensors.
Chen, Jianrong   +4 more
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Nanotechnology to Nanomanufacturing

2010
Nanotechnology is a term that is used to describe the science and technology related to the control and manipulation of matter and devices on a scale less than 100 nm in dimension. It involves a multidisciplinary approach involving fields such as applied physics, materials science, chemistry, biology, surface science, robotics, engineering, electrical ...
Waqar Ahmed, M. J. Jackson, I. Ul Hassan
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Nanotechnological selection

Nanotechnology, 2012
At the nanoscale measures can move from a mass-scale analogue calibration to counters of discrete units. The shift redefines the possible levels of control that can be achieved in a system if adequate selectivity can be imposed. As an example as ionic substances pass through nanoscale pores, the quantity of ions is low enough that the pore can contain ...
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Nanotechnology: Nanotechnology and Human Enhancement

2010
A journey into the future of medicine and the ethical concerns raised by the use of techniques of nanotechnology, biotechnology, and cognitive science for the purpose of human enhancement.
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NANOTECHNOLOGY IN MICROBIOLOGY

SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings, 2013
Nanotechnology involves design and development of organic and inorganic materials at the nanoscale, with tailor-made physical, chemical and biological properties. Widely studied application of nanotechnology includes molecular biology techniques of genetic modification of crops. Bacteria may form biofilms by self-assembly (e.g.
ÖZYARAL, OĞUZ   +2 more
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Nanotechnology's Future

Scientific American, 2006
This article discusses the rising prominence of nanotechnology in scientific research. Nanotechnology, focused on controlling the properties of matter, has begun to draw increasingly large amounts of state funding around the world. The author suggests that this field of research will expand in several different ways, including the development of ...
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Nanotechnology

Current Opinion in Chemical Biology, 2010
Andrew J, deMello, Adam T, Woolley
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