Iridium (iii) based phosphors bearing pincer carbene and pyrazolyl chelates

What is claimed is: 1 . An iridium (III) based phosphor bearing both pincer carbene and pyrazolyl chelates, and fabricated by using a dicarbene chelate, a pyrazolyl-based chelate and an iridium metal source complex as starting materials for carrying out chemical synthesis. 2 . The iridium (III) based phosphor bearing both pincer carbene and pyrazolyl chelates of claim 1 , wherein the phosphorescent Ir(III) metal complex is represented by following chemical formulas I, II, III, IV, V, VI, VII, VIII, and IX: wherein R in chemical formulas I˜IX is an aliphatic substituent represented by isopropyl (i-Pr). 3 . The iridium (III) based phosphor bearing both pincer carbene and pyrazolyl chelates of claim 1 , wherein the dicarbene chelate is synthesized from following chemical formulas L1 and L2: wherein R in chemical formulas L1 and L2 is an aliphatic molecular group represented by isopropyl (i-Pr). 4 . The iridium (III) based phosphor bearing pincer carbene and pyrazolyl chelates of claim 1 , wherein the pyrazolyl-based chelate is synthesized from the following chemical formulas L3, L4, L5, L6, L7, L8, and L9: 5 . The iridium (III) based phosphor bearing both pincer carbene and pyrazolyl chelates of claim 1 , wherein the iridium metal source complex is μ-chloro-bis[1,5-cyclooctadiene]iridium (III) dimer with the molecular formula of [Ir(COD)(μ-Cl)] 2 . 6 . The iridium (III) based phosphor bearing both pincer carbene and pyrazolyl chelates of claim 1 , having highest occupied molecular orbital energy levels (E HOMO ) ranged from 5.1 eV to 5.65 eV. 7 . The iridium (III) based phosphor bearing both pincer carbene and pyrazolyl chelates of claim 1 , wherein the phosphorescent Ir(III) metal complex containing double tridentate ligands can be applied as a guest light-emitting material in the OLED applications.