Nanomaterials Open Access Journals
Nanomaterials describe, in theory, materials of that one unit tiny sized (in a minimum of one dimension) between one and one hundred nm (the usual definition of nanoscale.Nanomaterials analysis takes a materials science-based approach to engineering, leverage advances in
materials science and synthesis that are developed in support of microfabrication analysis. Materials with structure at the nanoscale typically have distinctive optical, electronic, or mechanical propertiesBiological systems typically feature natural, practical nanomaterials. The structure of Foraminifera (mainly chalk) and
viruses (protein, capsid), the wax crystals covering a lotus or nasturtium leaf, spider and spider-mite silk, the blue hue of tarantulas,[18] the "spatulae" on all-time low of lizard feet, some butterfly wing scales, natural colloids (milk, blood), sexy materials (skin, claws, beaks, feathers, horns, hair), paper, cotton, nacre, corals, and even our own bone matrix area unit all natural organic nanomaterials.Natural inorganic nanomaterials occur through crystal growth within the various chemical conditions of the crust. as an example, clays show complicated
nanostructures thanks to property of their underlying crystal structure, and volcanic activity will create to opals, that area unit Associate in
Nursing instance of a present photonic crystals thanks to their nanoscale structure. Fires represent notably complicated reactions and might turn out pigments, cement, treated silicon oxide etc.Natural sources of
nanoparticles embody combustion product forest fires, volcanic ash, ocean spray, and therefore the nuclear reaction of inert gas gas. Natural nanomaterials also can be fashioned through weathering processes of metal- or anion-containing rocks, further as at acid mine emptying sites
High Impact List of Articles
-
When should the sequential parallel comparison design be used in clinical trials?
Lee Baer, Anastasia Ivanova
Clinical Trail Methodology: Clinical Investigation
-
When should the sequential parallel comparison design be used in clinical trials?
Lee Baer, Anastasia Ivanova
Clinical Trail Methodology: Clinical Investigation
-
HCV protease inhibitors: using the evidence to guide clinical practice
Derek Yu, Jordan J Feld
Review: Clinical Trail Outcomes: Clinical Investigation
-
HCV protease inhibitors: using the evidence to guide clinical practice
Derek Yu, Jordan J Feld
Review: Clinical Trail Outcomes: Clinical Investigation
-
Clinical outcome measures for trials in Duchenne muscular dystrophy: report from International Working Group meetings
Kate Bushby, Edward Connor
Proceedings: Clinical Investigation
-
Clinical outcome measures for trials in Duchenne muscular dystrophy: report from International Working Group meetings
Kate Bushby, Edward Connor
Proceedings: Clinical Investigation
-
The rationale and evidence for triple antiplatelet therapy in acute coronary syndromes
Beau M Hawkins, Jorge F Saucedo, Sunil V Rao
Review Article: Clinical Investigation
-
The rationale and evidence for triple antiplatelet therapy in acute coronary syndromes
Beau M Hawkins, Jorge F Saucedo, Sunil V Rao
Review Article: Clinical Investigation
-
New considerations in the design of clinical trials for the treatment of acute leukemia
Christopher S Hourigan, Judith E Karp
Review Article: Clinical Investigation
-
New considerations in the design of clinical trials for the treatment of acute leukemia
Christopher S Hourigan, Judith E Karp
Review Article: Clinical Investigation
Relevant Topics in Clinical