Quenched-in liquid in glass

Wang, Qing; Shang, Yinghui; Yang, Yong

doi:10.1088/2752-5724/acb8cf

Cited by 11 publications

(5 citation statements)

References 53 publications

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“…He and his co‐workers alternatively proposed a framework based on the role of sub‐Rouse modes 154 . The connection of physical aging, persisting at measurable time scales way below

T_{g}

, with liquid‐like behavior 155,156 and shear transformation zones, 157 which demonstrates the presence of extended relaxation even deep in the glassy state, has been formulated. Recently, Napolitano and co‐workers 17 have identified a slow Arrhenius process (SAP), completely decoupled from the

α

relaxation, bearing great potential to equilibrate glasses.…”

Section: Vitrification and Physical Aging In Bulk Glassesmentioning

confidence: 99%

Physical aging and vitrification in polymers and other glasses: Complex behavior and size effects

Cangialosi

2024

Journal of Polymer Science

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The paradigmatic view on the transformation of a supercooled liquid into a glass, so‐called vitrification or glass transition, and the subsequent time evolution of the non‐equilibrium glass, addressed as physical aging, relies on the exclusive role of the main relaxation with super‐Arrhenius temperature dependence. The aim of the present review is to carefully scrutinize the wealth of recent experimental results, above all in polymeric glasses, showing the relevance of other relaxational mechanisms in both vitrification and physical aging. While the relaxation bears dominant role in both phenomena in proximity of the glass transition temperature, , a broad view on a much wider temperature range indicates that vitrification and physical aging are mediated by non‐ mechanisms of equilibration. This review also shows that a reduction of the typical time scale of equilibration can be achieved in glasses with large free interface, namely with reduced sample size. In this way, fast non‐ mechanisms of equilibration can be exploited to convey glasses to low energy states in experimentally feasible time scales, thereby attaining information on the existence of the so‐called “ideal glass” in small sized samples.

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“…He and his co‐workers alternatively proposed a framework based on the role of sub‐Rouse modes 154 . The connection of physical aging, persisting at measurable time scales way below

T_{g}

α

relaxation, bearing great potential to equilibrate glasses.…”

Section: Vitrification and Physical Aging In Bulk Glassesmentioning

confidence: 99%

Physical aging and vitrification in polymers and other glasses: Complex behavior and size effects

Cangialosi

2024

Journal of Polymer Science

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“…13,14 2D materials are now attracting scientists due to their outstanding properties, such as a large surface area, which enables them to be remarkably sensitive to photon signals, tunable bandgap, and easy synthesis at low cost. [15][16][17] In 2019, a black phosphorus (BP)-based photodetector fabricated by a group of Li Huang exhibited a high responsivity with a value of 23 A W −1 under 368 nm illumination. 18 Moreover, while devices based on hexagonal boron nitride (h-BN) can detect deep UV light at 210 nm with an extremely low excitation power density, 19 one fabricated from molybdenum disulte (MoS 2 ) provided sensitivity to a large band from 445 to 2717 nm with the maximum values of R = 50.7 mA W −1 and D = 1.55 × 10 9 Jones.…”

Section: Introductionmentioning

confidence: 99%

A study on a broadband photodetector based on hybrid 2D copper oxide/reduced graphene oxide

Ngo,

Nguyen,

Tran

et al. 2024

Nanoscale Adv.

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“…Traditional RC systems typically require a large number of elements and then face significant volume and energy costs. [7,8] In recent decades, intensive attention has been paid to timedelayed RC, which consists of single nonlinear physical node and a delayed feedback loop containing several virtual nodes segmented through time multiplexing. [9] This contributes to a more friendly hardware implementation by reducing the number of physical devices and thus lowering computing costs.…”

Section: Introductionmentioning

confidence: 99%

Oxide‐Based Electrolyte‐Gated Transistors with Stable and Tunable Relaxation Responses for Deep Time‐Delayed Reservoir Computing

Fang,

Wang,

Zhang

et al. 2024

Adv Elect Materials

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Time‐delayed reservoir computing with marked strengths of friendly hardware implementation and low training cost is regarded as a promising solution to realize time and energy‐efficient time series information processing and thus receives growing attention. However, achieving a sufficient number of reproducible reservoir states remains a significant challenge, which severely limits its computing performance. Here, an electric‐double‐layer‐coupled oxide‐based electrolyte‐gated transistor with a shared gate and varying channel lengths is developed to construct a deep time‐delayed reservoir computing system. A variety of short‐term synaptic responses related to inherent ion‐electron‐coupled dynamics at the electrolyte/channel interface are demonstrated, reflecting a flexibly regulable channel current. Different stable and tunable relaxation responses corresponding to varying channel lengths are obtained to enrich reservoir states combined with virtual nodes ways. The spoken‐digit classification and Hénon map prediction tasks are implemented with high accuracy (≈92.2%) and ultralow normalized root mean square error (≈0.013), respectively, validating the significant improvement of the computing performance by introducing additional relaxation responses. This work opens a promising pathway in exploiting oxide‐based electrolyte‐gated transistors for realizing temporal information processing hardware systems.

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Quenched-in liquid in glass

Cited by 11 publications

References 53 publications

Physical aging and vitrification in polymers and other glasses: Complex behavior and size effects

Physical aging and vitrification in polymers and other glasses: Complex behavior and size effects

A study on a broadband photodetector based on hybrid 2D copper oxide/reduced graphene oxide

Oxide‐Based Electrolyte‐Gated Transistors with Stable and Tunable Relaxation Responses for Deep Time‐Delayed Reservoir Computing

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