Quinacridone is an organic compound used as a pigment. Numerous derivatives constitute the quinacridone pigment family, which finds extensive use in industrial colorant applications such as robust outdoor paints, inkjet printer ink, tattoo inks, artists' watercolor paints, and color laser printer toner. As pigments, the quinacridones are insoluble.^[1][2] The development of this family of pigments supplanted the alizarin dyes.^{[citation needed]}

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Quinacridone

Names
Preferred IUPAC name 5,12-Dihydroquinolino[2,3-b]acridine-7,14-dione
Other names C.I.: 73900, Pigment Violet 19
Identifiers
CAS Number	1047-16-1 Y
3D model (JSmol)	Interactive image
ChemSpider	13369 Y
ECHA InfoCard	100.012.618
EC Number	213-879-2
PubChem CID	13976
UNII	11P487375P Y
CompTox Dashboard (EPA)	DTXSID5027354
InChI InChI=1S/C20H12N2O2/c23-19-11-5-1-3-7-15(11)21-17-10-14-18(9-13(17)19)22-16-8-4-2-6-12(16)20(14)24/h1-10H,(H,21,23)(H,22,24) Y Key: NRCMAYZCPIVABH-UHFFFAOYSA-N Y InChI=1/C20H12N2O2/c23-19-11-5-1-3-7-15(11)21-17-10-14-18(9-13(17)19)22-16-8-4-2-6-12(16)20(14)24/h1-10H,(H,21,23)(H,22,24) Key: NRCMAYZCPIVABH-UHFFFAOYAK
SMILES O=C4c5ccccc5Nc3cc2C(=O)c1c(cccc1)Nc2cc34
Properties
Chemical formula	C20H12N2O2
Molar mass	312.328 g·mol−1
Appearance	Red powder (nanoparticles)
Density	1.47 g/cm3
Solubility in water	Insoluble
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa). Y verify (what is YN ?) Infobox references

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The name indicates that the compounds are a fusion of acridone and quinoline, although they are not made that way. Classically the parent is prepared from the 2,5-dianilide of terephthalic acid (C₆H₂(NHPh)₂(CO₂H)₂). Condensation of succinosuccinate esters with aniline followed by cyclization affords dihydroquinacridone, which are readily dehydrogenated. The latter is oxidized to quinacridone.^[1] Derivatives of quinacridone can be readily obtained by employing substituted anilines. Linear cis-Quinacridones can be prepared from isophthalic acid.^[3][4]

Quinacridone-based pigments are used to make high performance paints. Quinacridones were first sold as pigments by Du Pont in 1958.^[5] Quinacridones are considered "high performance" pigments because they have exceptional color and weather fastness. Major uses for quinacridones include automobile and industrial coatings. Nanocrystalline dispersions of quinacridone pigments functionalized with solubilizing surfactants are the most common magenta printing ink.

Typically deep red to violet in color, the hue of quinacridone is affected not only by the R-groups on the molecule but by the crystal form of the solid. For example, the γ crystal modification of unsubstituted quinacridone provides a strong red shade that has excellent color fastness and resistance to solvation. Another important modification is the β phase which provides a maroon shade that is also more weather resistant and light-fast. Both crystal modifications are more thermodynamically stable than the α crystal phase. The γ crystal modification is characterized by a criss-cross lattice where each quinacridone molecule hydrogen-bonds to four neighbors via single H-bonds. The β phase, meanwhile, consists of linear chains of molecules with double H-bonds between each quinacridone molecule and two neighbors.^[6]

Basic modifications to the chemical structure of quinacridones include the addition of CH₃ and Cl substituents. Some magenta shades of quinacridone are labeled under the proprietary name "Thio Violet"^[7] and "Acra Violet".^[8]

Quinacridone derivatives exhibit intense fluorescence in the dispersed state, and high carrier mobility. These properties complement good photo-, thermal, and electrochemical stability. These properties are desired for optoelectronic applications including organic light-emitting diodes (OLEDs), organic solar cells (OSCs), and organic field-effect transistors (OFETs). Due to interplay of intermolecular H-bonding and pi-pi stacking, quinacridone can form a self-assembling, supramolecular organic semiconductor.