Negative Charge Management to Make Fragile Bonds No Longer Fragile towards Electrons for Robust Organic Optoelectronic Materials
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Abstract
The development of robust organic (opto)electronic devices is mainly depressed by the poor intrinsic stability of organic materials on service. For organic light-emitting diode (OLED) materials, a key parameter for intrinsic stability is the bond-dissociation energy of the most fragile bond (BDE f ). Although rarely concerned, many OLED molecules have the lowest BDE f in anionic states (BDE f (−) ∼1.6−2.5 eV), which could be a fatal short-slab for device stability. Here, we confirmed the clear relationship between BDE f (−), intrinsic material stability, and device lifetime, and further developed a general and effective strategy to promote BDE f (−) ~1 eV for various fragile bonds by introducing appropriate negative charge manager within the molecule. The manager can firmly confine negative-charge and protect fragile bonds, which was verified in typical phosphine-oxide and carbazole derivatives, and backed by newly-designed molecules. This tactic provides a new perspective to reform the vulnerable building blocks for robust organic (opto)electronic materials and devices.
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- last seen: 2026-05-19T01:45:01.086888+00:00