Jinba Han scite author profile

To study the influence of different types of substituent moieties onto the molecular backbones of conjugated donor–acceptor (D–A) molecules on the thin‐film morphology and performance of their memory devices, three new molecules X‐TBT were synthesized, which consist of the same backbone of two triphenylamine (T) groups and benzothiadiazole (BT) group, but have different substituents (X) with different electronic effects, that is, cyano group (CN), tert‐butyl group (tBu), and methoxy group (OMe). Nonvolatile ternary write‐once‐read‐many‐times (WORM) data storage behavior is achieved for the CN‐TBT and tBu‐TBT based devices as compared to the binary memory characteristic of TBT (X = H). In contrast, OMe‐TBT based device still maintains binary WORM behavior due to its unfavorable molecular packing motif and weak intermolecular charge transfer effect, but exhibits the lowest operating voltage (1.4 V) as a result of the lowest energy barrier between electrode and active layer. Notably, the tBu‐TBT based device displays the highest ION2/ION1/IOFF ratio of 107:103:1. Altering the substituents in D–A molecules can adjust the molecular packing, thin film morphology, and electron trap depth of the active layer, which then significantly influence the memory performance.

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A MoSe₂ quantum dot modified hole extraction layer enables binary organic solar cells with improved efficiency and stability

Lian

Pan

Han

et al. 2021

J. Mater. Chem. A

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Enhanced intra/intermolecular charge transfer for efficient multilevel resistive memory

Cheng

Lian

Yao

et al. 2022

Applied Surface Science

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Jinba Han

Metal-containing organic compounds for memory and data storage applications

Study of Electronic and Steric Effects of Different Substituents in Donor–Acceptor Molecules on Multilevel Organic Memory Data Storage Performance

A MoSe₂ quantum dot modified hole extraction layer enables binary organic solar cells with improved efficiency and stability

Enhanced intra/intermolecular charge transfer for efficient multilevel resistive memory

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Jinba Han

Metal-containing organic compounds for memory and data storage applications

Study of Electronic and Steric Effects of Different Substituents in Donor–Acceptor Molecules on Multilevel Organic Memory Data Storage Performance

A MoSe2 quantum dot modified hole extraction layer enables binary organic solar cells with improved efficiency and stability

Enhanced intra/intermolecular charge transfer for efficient multilevel resistive memory

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Product

Resources

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A MoSe₂ quantum dot modified hole extraction layer enables binary organic solar cells with improved efficiency and stability