Nanobiotechnology


Ontology type: npg:Subject  | skos:Concept     


Concept Info

NAME

Nanobiotechnology

DESCRIPTION

Nanobiotechnology is a discipline in which tools from nanotechnology are developed and applied to study biological phenomena. For example, nanoparticles can serve as probes, sensors or vehicles for biomolecule delivery in cellular systems.

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Download the RDF metadata as:  json-ld nt turtle xml License info

HOW TO GET THIS DATA PROGRAMMATICALLY:

JSON-LD is a popular format for linked data which is fully compatible with JSON.

curl -H 'Accept: application/ld+json' 'https://scigraph.springernature.com/ontologies/subjects/nanobiotechnology'

N-Triples is a line-based linked data format ideal for batch operations.

curl -H 'Accept: application/n-triples' 'https://scigraph.springernature.com/ontologies/subjects/nanobiotechnology'

Turtle is a human-readable linked data format.

curl -H 'Accept: text/turtle' 'https://scigraph.springernature.com/ontologies/subjects/nanobiotechnology'

RDF/XML is a standard XML format for linked data.

curl -H 'Accept: application/rdf+xml' 'https://scigraph.springernature.com/ontologies/subjects/nanobiotechnology'


 

This table displays all metadata directly associated to this object as RDF triples.

248 TRIPLES      10 PREDICATES      24 URIs      6 LITERALS

Subject Predicate Object
1 sg:ontologies/subjects/nanobiotechnology sgo:license sg:explorer/license/
2 sgo:sdDataset onto_subjects
3 rdf:type npg:Subject
4 skos:Concept
5 rdfs:label Nanobiotechnology
6 skos:altLabel Bionanotechnology
7 nanobiology
8 skos:broader sg:ontologies/subjects/biological-techniques
9 sg:ontologies/subjects/biotechnology
10 sg:ontologies/subjects/nanoscience-and-technology
11 skos:definition Nanobiotechnology is a discipline in which tools from nanotechnology are developed and applied to study biological phenomena. For example, nanoparticles can serve as probes, sensors or vehicles for biomolecule delivery in cellular systems.
12 skos:inScheme sg:ontologies/subjects/
13 skos:narrower sg:ontologies/subjects/applications-of-afm
14 sg:ontologies/subjects/bionanoelectronics
15 sg:ontologies/subjects/biosensors
16 sg:ontologies/subjects/microengraving
17 sg:ontologies/subjects/microfluidics
18 sg:ontologies/subjects/nanofabrication-and-nanopatterning
19 sg:ontologies/subjects/nanoparticles
20 sg:ontologies/subjects/nanopores
21 sg:ontologies/subjects/nanostructures
22 sg:ontologies/subjects/soft-lithography
23 skos:prefLabel Nanobiotechnology
24 sg:ontologies/subjects/ dcterms:description The Nature Subjects Taxonomy is a polyhierarchical categorization of scholarly subject areas which are used for the indexing of content by Springer Nature.
25 dcterms:title Nature Subjects Taxonomy
26 sgo:sdDataset onto_subjects
27 rdf:type skos:ConceptScheme
28 skos:hasTopConcept sg:ontologies/subjects/DEPRECATED
29 sg:ontologies/subjects/biological-sciences
30 sg:ontologies/subjects/business-and-commerce
31 sg:ontologies/subjects/earth-and-environmental-sciences
32 sg:ontologies/subjects/health-sciences
33 sg:ontologies/subjects/humanities
34 sg:ontologies/subjects/physical-sciences
35 sg:ontologies/subjects/scientific-community-and-society
36 sg:ontologies/subjects/social-science
37 sg:ontologies/subjects/applications-of-afm sgo:sdDataset onto_subjects
38 rdf:type npg:Subject
39 skos:Concept
40 rdfs:label Applications of AFM
41 skos:broader sg:ontologies/subjects/nanobiotechnology
42 skos:definition Applications of atomic force microscopy (AFM) include biochemistry applications (imaging the structure of biological molecules, cellular components, cells or tissues), chemistry, materials science and nanotechnology applications (imaging of polymers, nanostructures or other materials) and physics and biophysics applications (measuring forces between the AFM tip and the sample surface).
43 skos:inScheme sg:ontologies/subjects/
44 skos:prefLabel Applications of AFM
45 sg:ontologies/subjects/biological-techniques sgo:sdDataset onto_subjects
46 rdf:type npg:Subject
47 skos:Concept
48 rdfs:label Biological techniques
49 skos:altLabel Methodological Studies
50 Methodological Study
51 Methods
52 Procedure
53 Procedures
54 skos:broader sg:ontologies/subjects/biological-sciences
55 skos:definition Biological techniques are methods or procedures that are used to study living things. They include experimental and computational methods, approaches, protocols and tools for biological research.
56 skos:inScheme sg:ontologies/subjects/
57 skos:narrower sg:ontologies/subjects/analytical-biochemistry
58 sg:ontologies/subjects/behavioural-methods
59 sg:ontologies/subjects/bioinformatics
60 sg:ontologies/subjects/biological-models
61 sg:ontologies/subjects/biophysical-methods
62 sg:ontologies/subjects/cytological-techniques
63 sg:ontologies/subjects/electrophysiology
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81 sg:ontologies/subjects/nanobiotechnology
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88 sg:ontologies/subjects/structure-determination
89 skos:prefLabel Biological techniques
90 sg:ontologies/subjects/bionanoelectronics sgo:sdDataset onto_subjects
91 rdf:type npg:Subject
92 skos:Concept
93 rdfs:label Bionanoelectronics
94 skos:broader sg:ontologies/subjects/nanobiotechnology
95 skos:definition Bionanoelectronics is an interdisciplinary field concerned with systems that interface biological matter with synthetic biocompatible nanomaterials for use in electronic components. Examples of bionanoelectronic systems are biosensors, drug-delivery devices and neural circuits.
96 skos:inScheme sg:ontologies/subjects/
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98 sg:ontologies/subjects/biosensors sgo:sdDataset onto_subjects
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100 skos:Concept
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102 skos:altLabel Bioprobe
103 Bioprobes
104 Biosensing Technic
105 Biosensing Technics
106 Biosensing Technique
107 Biosensing Techniques
108 Biosensor
109 Enzyme Electrode
110 Enzyme Electrodes
111 skos:broader sg:ontologies/subjects/nanobiotechnology
112 sg:ontologies/subjects/nanoscale-devices
113 skos:definition Biosensors are devices used to detect the presence or concentration of a biological analyte, such as a biomolecule, a biological structure or a microorganism. Biosensors consist of three parts: a component that recognizes the analyte and produces a signal, a signal transducer, and a reader device.
114 skos:inScheme sg:ontologies/subjects/
115 skos:prefLabel Biosensors
116 sg:ontologies/subjects/biotechnology sgo:sdDataset onto_subjects
117 rdf:type npg:Subject
118 skos:Concept
119 rdfs:label Biotechnology
120 skos:altLabel Biotechnologies
121 skos:broader sg:ontologies/subjects/biological-sciences
122 skos:definition Biotechnology is a broad discipline in which biological processes, organisms, cells or cellular components are exploited to develop new technologies. New tools and products developed by biotechnologists are useful in research, agriculture, industry and the clinic.
123 skos:inScheme sg:ontologies/subjects/
124 skos:narrower sg:ontologies/subjects/animal-biotechnology
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128 sg:ontologies/subjects/biomaterials
129 sg:ontologies/subjects/biomimetics
130 sg:ontologies/subjects/cell-delivery
131 sg:ontologies/subjects/environmental-biotechnology
132 sg:ontologies/subjects/expression-systems
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135 sg:ontologies/subjects/gene-therapy
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137 sg:ontologies/subjects/industrial-microbiology
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139 sg:ontologies/subjects/metabolomics
140 sg:ontologies/subjects/molecular-engineering
141 sg:ontologies/subjects/nanobiotechnology
142 sg:ontologies/subjects/nucleic-acid-therapeutics
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146 sg:ontologies/subjects/protein-delivery
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148 sg:ontologies/subjects/regenerative-medicine
149 sg:ontologies/subjects/sequencing
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152 skos:prefLabel Biotechnology
153 sg:ontologies/subjects/microengraving sgo:sdDataset onto_subjects
154 rdf:type npg:Subject
155 skos:Concept
156 rdfs:label Microengraving
157 skos:broader sg:ontologies/subjects/nanobiotechnology
158 skos:definition Microengraving is a method that uses high-density arrays to probe the secretory behaviour of thousands of individual cells. It employs elastomeric nanolitre wells to trap single living cells and their secreted molecules, followed by serial probing of the molecules with labelled antibodies that are imaged for detection.
159 skos:inScheme sg:ontologies/subjects/
160 skos:prefLabel Microengraving
161 sg:ontologies/subjects/microfluidics sgo:sdDataset onto_subjects
162 rdf:type npg:Subject
163 skos:Concept
164 rdfs:label Microfluidics
165 skos:altLabel Microfluidic
166 Nanofluidics
167 skos:broader sg:ontologies/subjects/analytical-chemistry
168 sg:ontologies/subjects/nanobiotechnology
169 skos:definition Microfluidics is the engineering or use of devices that apply fluid flow to channels smaller than 1 millimetre in at least one dimension. Microfluidic devices can reduce reagent consumption, allow well controlled mixing and particle manipulation, integrate and automate multiple assays (known as lab-on-a-chip), and facilitate imaging and tracking.
170 skos:inScheme sg:ontologies/subjects/
171 skos:prefLabel Microfluidics
172 sg:ontologies/subjects/nanofabrication-and-nanopatterning sgo:sdDataset onto_subjects
173 rdf:type npg:Subject
174 skos:Concept
175 rdfs:label Nanofabrication and nanopatterning
176 skos:broader sg:ontologies/subjects/nanobiotechnology
177 skos:definition Nanofabrication and nanopatterning are fields of study in which methods are developed to manufacture nanomaterials, or pattern materials on a nanometre scale (i.e., below 100 nm in at least one dimension). Nanolithography is a common method used in nanopatterning.
178 skos:inScheme sg:ontologies/subjects/
179 skos:prefLabel Nanofabrication and nanopatterning
180 sg:ontologies/subjects/nanoparticles sgo:sdDataset onto_subjects
181 rdf:type npg:Subject
182 skos:Concept
183 rdfs:label Nanoparticles
184 skos:altLabel Nanocrystal
185 Nanocrystalline Material
186 Nanocrystalline Materials
187 Nanocrystals
188 Nanoparticle
189 skos:broader sg:ontologies/subjects/nanobiotechnology
190 sg:ontologies/subjects/nanoscale-materials
191 sg:ontologies/subjects/optical-materials-and-structures
192 skos:definition Nanoparticles are particles that exist on a nanometre scale (i.e., below 100 nm in at least one dimension). They can possess physical properties such as uniformity, conductance or special optical properties that make them desirable in materials science and biology.
193 skos:inScheme sg:ontologies/subjects/
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198 rdfs:label Nanopores
199 skos:altLabel Nanopore
200 skos:broader sg:ontologies/subjects/nanobiotechnology
201 sg:ontologies/subjects/nanoscale-devices
202 skos:definition Nanopores are nanoscale pores in electrically insulating materials used to study the physical properties of biomolecules by measuring changes in current as individual molecules transit. Nanopore arrays are constructed from channel proteins in lipid membranes or from pores patterned in synthetic materials, and can sequence DNA or characterize protein folding.
203 skos:inScheme sg:ontologies/subjects/
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208 rdfs:label Nanoscience and technology
209 skos:altLabel Nanotechnologies
210 skos:broader sg:ontologies/subjects/physical-sciences
211 skos:definition Nanoscience and technology is the branch of science that studies systems and manipulates matter on atomic, molecular and supramolecular scales (the nanometre scale). On such a length scale, quantum mechanical and surface boundary effects become relevant, conferring properties on materials that are not observable on larger, macroscopic length scales.
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222 skos:prefLabel Nanoscience and technology
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227 skos:altLabel Nanomaterial
228 Nanomaterials
229 Nanostructure
230 Nanostructured Material
231 Nanostructured Materials
232 skos:broader sg:ontologies/subjects/nanobiotechnology
233 skos:definition Nanostructures are structures that range between 1 nm (molecular scale) and 100 nm in at least one dimension. Most are synthetic and can be engineered to wide range of physical properties. Nanosurfaces, cylindrical nanotubes, and nanospheres are common nanostructures.
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241 skos:definition Soft lithography refers to printing and moulding techniques to produce microstructures or nanostructures from elastomeric polymer such as polydimethylsiloxane (PDMS). The techniques are flexible and inexpensive.
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