Matches in Nanopublications for { ?s ?p "The InChI algorithm turns chemical structures into machine-readable strings of information. InChIs are unique to the compound they describe and can encode absolute stereochemistry making chemicals and chemistry machine-readable and discoverable. A simple analogy is that InChI is the bar-code for chemistry and chemical structures. Additionally, InChIKey is defined as a fixed-length string of upper-case characters designed as simple identifier to be used in internet and database search engines. It is generated by subjecting the InChI string to a compression algorithm. Besides the standard InChI for chemicals, extensions to mixtures, nanomaterials, organometalics and polymers are also available usable as unique identifiers and as metadata schema for composition and structural information." ?g. }
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- InChI comment "The InChI algorithm turns chemical structures into machine-readable strings of information. InChIs are unique to the compound they describe and can encode absolute stereochemistry making chemicals and chemistry machine-readable and discoverable. A simple analogy is that InChI is the bar-code for chemistry and chemical structures. Additionally, InChIKey is defined as a fixed-length string of upper-case characters designed as simple identifier to be used in internet and database search engines. It is generated by subjecting the InChI string to a compression algorithm. Besides the standard InChI for chemicals, extensions to mixtures, nanomaterials, organometalics and polymers are also available usable as unique identifiers and as metadata schema for composition and structural information." assertion.