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Development of robust synthetic protocols1 is lucrative to both industrial and academic research professionals because of their potential to reduce environmental hazards and overhead cost by minimizing the amount of used volatile organic solvents, reagents, catalyst, time, manpower and energy. A wide range of heterocyclic scaffolds as well as organic nanobuilding blocks were synthesized through C-H activation and functionalization using catalysts such as metal salts, designed metal-complex, N-heterocyclic carbenes, photocatalysis, multicatalysts,2 metal- and functionalized-nanomaterials, and nanoporous materials (POP).3 Recently, several synthesized organic compounds were fabricated in our laboratory and evaluated their high-performance organic nanoelectronics.4 For instance, phenazine-based organic nanomaterials have used for fabrication of crossbar device to achieve organic resistive random access memory (RRAM) device and a write-once-read-many-times (WORM) devices which are applicable for the non-editable database, archival memory, electronic voting, and radio frequency identification (RFID) applications. A novel organic luminescent material for inkless writing and self-erasing application is a remarkable solution to reduce paper waste, recycling cost in the printing industry as well as a security material. We have developed sensing device of organic nanomaterials for detecting lethal gaseous-phosgene. |