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Excellent Mechanical Durability of In‐Folding Stress of Poly‐Si Thin‐Film Transistor on Plastic Substrate Compared with Out‐Folding: Generation of Gate Leakage Currents in Flexible Poly‐Si Thin‐Film Transistor by Out‐Folding and Bias‐Temperature Stress
Author(s) -
Kim Dongjin,
Billah Mohammad Masum,
Lee Suhui,
Siddik Abu Bakar,
Cho Young Joo,
Jang Jin,
Lee Jaeseob,
Lee Yongsu,
Shin Jiyeong
Publication year - 2021
Publication title -
advanced engineering materials
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.938
H-Index - 114
eISSN - 1527-2648
pISSN - 1438-1656
DOI - 10.1002/adem.202000901
Subject(s) - materials science , thin film transistor , threshold voltage , annealing (glass) , stress (linguistics) , optoelectronics , folding endurance , transistor , trapping , subthreshold conduction , composite material , voltage , layer (electronics) , electrical engineering , polymer , ecology , linguistics , philosophy , ethyl cellulose , biology , engineering
The effect of electro‐thermal stress on the electrical performance of flexible, low‐temperature polysilicon (LTPS) thin‐film transistors (TFTs) after mechanical‐folding stress aiming to improve the reliability of foldable display backplanes is studied ( I G ). Herein, for the first time, the significant increase of gate leakage currents upon the negative bias temperature stress (NBTS) or positive bias temperature stress (PBTS) after the out‐folding test on excimer laser annealing (ELA) TFTs is reported. Out‐folding stress increases the drain current, shifts the threshold voltage (Δ V TH ) by 2.4 V, and increases the subthreshold swing without affecting the ( I G ). However, the Δ V TH is 1.8 V upon NBTS, and the negative Δ V TH is −4.7 V upon PBTS after out‐folding stress along with a drastic increase in I G . A thermal annealing at 250 °C for 10 h for the electro‐thermal stressed TFTs after out‐folding is performed, and initial electrical characteristics recovery is achieved; except the abruptly increased I G . These results are correlated with charge trapping at the damaged grain boundary and (GI). A model with moisture/water molecule diffusion through the nanocracks generated by out‐folding is proposed. The ionized charges (H + , OH − ) captured at the nanocrack‐induced trap sites in poly‐Si and GI appear to be the origin of abnormal Δ V TH and I G .

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