# Nanoscale Thin-Film Flexible Organic Field-Effect Transistors with Triple PMMA/SiO2/ZnO Gate Insulator Layers

**Authors:** Sundes Fakher, Furat AI-Saymari, Mohammed Mabrook, Hameed Al-Attar

PMC · DOI: 10.3390/mi17030382 · Micromachines · 2026-03-21

## TL;DR

Researchers created flexible organic transistors with a new triple-layer insulator that improves performance and durability.

## Contribution

A triple PMMA/SiO2/ZnO gate insulator is introduced, enabling high mobility and stability in flexible OFETs.

## Key findings

- OFETs achieved mobility values up to ~7.14 cm²/V·s on flexible substrates before bending.
- Triple insulating layers showed minimal hysteresis and high on/off current ratios.
- Threshold voltages remained stable at -7 V and -9 V before and after bending.

## Abstract

Organic field-effect transistors (OFETs) incorporating a triple insulating layer of polymethyl methacrylate (PMMA), silicon dioxide (SiO2), and zinc oxide (ZnO) were successfully fabricated on glass and on flexible PET substrates. The insulating layers significantly enhanced device performance, with the OFETs achieving field-effect mobility (µ) values more than twice as high as those reported in the literature. Specifically, mobility values of ~6.75 cm2/V·s were recorded on glass, ~7.14 cm2/V·s on flexible substrates before bending, and ~6.88 cm2/V·s on flexible substrates after bending. Threshold voltages (Vth) of −7 V and −9 V were estimated for the flexible OFETs before and after bending, respectively, along with a high on/off current ratio, exceeding 103 for all devices. Minimal hysteresis in the transfer and output characteristics indicated excellent, trap-free interaction between the insulating layers and the pentacene. The high dielectric constant of the PMMA/SiO2/ZnO triple insulating layers was identified as a critical factor driving the exceptional performance, stability, and low hysteresis of the OFETs. These results underscore the pivotal role of advanced insulating layers in optimizing OFET performance and durability.

## Linked entities

- **Chemicals:** silicon dioxide (PubChem CID 24261), zinc oxide (PubChem CID 3007857), pentacene (PubChem CID 8671)

## Full-text entities

- **Chemicals:** ZnO (MESH:D015034), SiO2 (MESH:D012822), PMMA (MESH:D019904), pentacene (MESH:C523499)

## Full text

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## Figures

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## References

59 references — full list in the complete paper: https://tomesphere.com/paper/PMC13028382/full.md

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Source: https://tomesphere.com/paper/PMC13028382