Fatigue Effect of Stretchable a-InGaZnO TFT on PI/PDMS Substrate under Repetitive Uni/Biaxial Elongation Stress

Lee, Won-Bum; Park, Jin‐Seong

doi:10.1021/acsaelm.2c01171

Cited by 5 publications

(5 citation statements)

References 41 publications

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“…In general, accumulated tensile stress induces a negative V th shift in TFT, [12,59] however, the micro-LED on the backplane might have been damaged by the biaxial stretching cycles, resulting in the failure of I DD . It was confirmed that there was negligible degradation in the on-state I DD under variations in VDD and V Data , as shown in Figure S12 (Supporting Information).…”

Section: Changes In Morphology and Electrical Characteristics Of Liqu...mentioning

confidence: 99%

“…In general, the accumulated tensile stress induces a negative V th shift in TFT due to oxygen vacancy generation, resulting in a current increase. [12,59] However, micro-LED on pixel circuit degrades with increasing stretching cycles. Thus, the deterioration could be attributed to the LED/island interfacial bonding reliability.…”

Section: Changes In Morphology and Electrical Characteristics Of Liqu...mentioning

confidence: 99%

“…To achieve stable electrical performance under stretching, oxide thin‐film transistors (TFTs) on rigid islands/stretchable substrates have been studied. [ 10–13 ] Especially, amorphous indium‐gallium‐zinc oxide (a‐IGZO) TFTs on the plastic substrate are widely used for flexible and stretchable electronics because of large area scalability, high field‐effect mobility (>10 cm 2 V −1 s −1 ) and low off‐state current. [ 14–16 ] Highly stretchable organic TFTs have been extensively studied, however, there still have issues such as high driving voltage, bias stability, and low on‐state current.…”

Section: Introductionmentioning

confidence: 99%

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Biaxially Stretchable Active‐Matrix Micro‐LED Display with Liquid Metal Interconnects

Park,

Kim,

Lee

et al. 2023

Adv Materials Technologies

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A stretchable active‐matrix (AM) display is a next‐generation display that breaks away from displaying limited information on flat and curved screens. However, the implementation of stretchable displays requires much more complex fabrication processes and meticulous efforts compared to traditional flat/curved displays. Here, the biaxially stretchable AM micro‐light emitting diode (LED) display on polydimethylsiloxane (PDMS) with liquid metal (LM) interconnects is reported. The pixel islands consisting of oxide TFTs and micro‐LEDs, which are fabricated on the polyimide (PI) substrate, are formed through green laser cutting and transfer to the PDMS substrate. LM interconnects integrate on the pixel island and PDMS by a lift‐off process. The oxide TFTs and micro‐LEDs comprising the 2T1C (2 TFT + 1 capacitor) pixel circuit on the PI island, along with LM interconnects, demonstrate stable electrical characteristics even under a relaxed state as well as when biaxially stretched up to 24%. For 24% stretching of display pixels with the same ratio of PI island and LM interconnects, the LM interconnects operate at 48% stretching. The combination of pixel island array and LM interconnects successfully demonstrates the implementation of a two‐axis stretchable display capable of displaying characters of “A”, “D”, “R”, and “C” through AM driving.

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Section: Changes In Morphology and Electrical Characteristics Of Liqu...mentioning

confidence: 99%

Section: Changes In Morphology and Electrical Characteristics Of Liqu...mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Biaxially Stretchable Active‐Matrix Micro‐LED Display with Liquid Metal Interconnects

Park,

Kim,

Lee

et al. 2023

Adv Materials Technologies

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“…As illustrated in Figure , the empty space between the normal pixels is occupied by the activated hidden pixels, thus preventing the loss of resolution and luminance during stretching . Such an idea was conceptually demonstrated in a simple passive-matrix (PM) LED pixel array, where the activation of hidden pixels was controlled by integrating additional strain sensors outside the array. ,, These sensors, which are typically designed with a positive gauge factor (P-GF) that increases resistance upon stretching, inevitably require complex signal processing to facilitate current flow and trigger the activation of the hidden pixels by the elongation of the substrates. − For further advancement, key technologies compatible with pixel circuits arranged with numerous TFTs are essentially required to enable the application of this design concept to commercially available active-matrix (AM) displays …”

Section: Introductionmentioning

confidence: 99%

“…However, stretchable displays must satisfy stricter requirements than those imposed on existing flexible or foldable displays to maintain their electrical and optical properties under mechanical stretching. , While commercial products with flexible or foldable displays have recently emerged, the absence of commercial products with stretchable displays indicates an even more challenging technological hurdle. This difficulty arises from variations in the net display area, not during folding conditions but during stretching conditions . Therefore, most components of stretchable displays including light-emitting diodes (LEDs), thin-film transistors (TFTs), dielectrics, interconnects, encapsulations, and substrates should all be designed to withstand mechanical strain.…”

Section: Introductionmentioning

confidence: 99%

Strain-Sensor-In-Pixel Technology for Resolution-Sustainable Stretchable Displays

Min,

An,

Kang

et al. 2024

ACS Nano

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Impact of Elongation Stress on Island-Bridge Shaped Oxide Thin-Film Transistors with Metal Interconnects for Stretchable Electronics Applications

Lee,

Kim,

Park

2024

ACS Appl. Electron. Mater.

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This study presents a comprehensive examination of the degradation mechanisms affecting oxide thin-film transistors (TFTs) with rigid islands and serpentine bridge structures under mechanical elongation stress. Assessments were conducted along the uniaxial direction at 10%, 20%, and 30% strain. To assess the influence of bridge interconnections to the source/drain/gate (S/ D/G) electrodes on the TFT performance, measurements were performed using four distinct methods: IG-IC (no connected bridge considered), IG-SC (only S/D-connected bridge considered), SG-IC (only G-connected bridge considered), and SG-SC (all S/D/ G-connected bridges considered). IG-IC showed no changes in the elongation state (ΔV th : 0.15 V, Δμ FE : 0.32 cm 2 /(V s), ΔV hys : 0.01 V, and ΔS.S: 0.00 V/decade). Conversely, the other three measurements show characteristic degradation and abnormal behavior at the 20% elongation. In the stretching assessment considering only S/D bridge stretching, a decrease in mobility, attributed to on-current reduction, was observed (Δμ FE : 18.05 → 3.58 cm 2 /(V s)). Furthermore, in the stretching assessment considering only G bridge stretching, counterclockwise hysteresis was observed rather than clockwise hysteresis owing to typical charge trapping (ΔV hys : 0.02 → −2.48 V). Therefore, we would like to explain the origin of the degradation in both the contact and gating aspects owing to the elongation stress. Finally, subsequent 20% elongation in the biaxial direction confirmed both the decrease in on-current and the counterclockwise hysteresis.

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Fatigue Effect of Stretchable a-InGaZnO TFT on PI/PDMS Substrate under Repetitive Uni/Biaxial Elongation Stress

Cited by 5 publications

References 41 publications

Biaxially Stretchable Active‐Matrix Micro‐LED Display with Liquid Metal Interconnects

Biaxially Stretchable Active‐Matrix Micro‐LED Display with Liquid Metal Interconnects

Strain-Sensor-In-Pixel Technology for Resolution-Sustainable Stretchable Displays

Impact of Elongation Stress on Island-Bridge Shaped Oxide Thin-Film Transistors with Metal Interconnects for Stretchable Electronics Applications

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