Add to ORKGBiological molecules and systems have a number of attributes that make them highly suitable for nanotechnology applications. For example, proteins fold into precisely defined three-dimensional shapes, and nucleic acids assemble according to well-understood rules. Antibodies are highly specifi
Nanotechnology is defined as the study and application of 1- 100 nm sized structures. Nanomaterials ...
Inspired by nature and its ability to form well-defined architectures on the nanoscale, this chapter...
Understanding and controlling the biological response to nanoparticles is essential to designing saf...
<p>During the last few years, nanotechnology became one of the most investigated and explored ...
'Nanostructured materials' refer to certain materials that have delicate structures and sizes that f...
The application of nanotechnology in medicine signifies one of the most exciting developments in sci...
This chapter introduces the basic concepts of nano science to readers. Some novel methodologies for ...
This fully updated volume presents a wide range of methods for synthesis, surface modification, char...
Bio-nanoscience research encompasses studies on the interactions of nanomaterials with biological st...
Biological functions take place in nanometer-sized objects. Therefore inorganic nanoparticles can be...
Numerous advantages of nanotechnology depend on its capacity to modify materials at incredibly small...
Many diseases originate from alterations in biologic processes at the molecular or nanoscale level. ...
Colloidal nanoparticles designed for the interactions with cells are very small, nanoscale objects u...
The application of nanobiomaterials in biomedical field is rapidly processing, especially in the are...
During the past years, scientists have achieved significant success in the nanoscience and nanotechn...
Nanotechnology is defined as the study and application of 1- 100 nm sized structures. Nanomaterials ...
Inspired by nature and its ability to form well-defined architectures on the nanoscale, this chapter...
Understanding and controlling the biological response to nanoparticles is essential to designing saf...
<p>During the last few years, nanotechnology became one of the most investigated and explored ...
'Nanostructured materials' refer to certain materials that have delicate structures and sizes that f...
The application of nanotechnology in medicine signifies one of the most exciting developments in sci...
This chapter introduces the basic concepts of nano science to readers. Some novel methodologies for ...
This fully updated volume presents a wide range of methods for synthesis, surface modification, char...
Bio-nanoscience research encompasses studies on the interactions of nanomaterials with biological st...
Biological functions take place in nanometer-sized objects. Therefore inorganic nanoparticles can be...
Numerous advantages of nanotechnology depend on its capacity to modify materials at incredibly small...
Many diseases originate from alterations in biologic processes at the molecular or nanoscale level. ...
Colloidal nanoparticles designed for the interactions with cells are very small, nanoscale objects u...
The application of nanobiomaterials in biomedical field is rapidly processing, especially in the are...
During the past years, scientists have achieved significant success in the nanoscience and nanotechn...
Nanotechnology is defined as the study and application of 1- 100 nm sized structures. Nanomaterials ...
Inspired by nature and its ability to form well-defined architectures on the nanoscale, this chapter...
Understanding and controlling the biological response to nanoparticles is essential to designing saf...