Yue Sun scite author profile

General strategies leading to scale-span molecular self-assembly are of crucial importance in creating bulk supramolecular materials. Here, we report that under mechanical pressure, caking of the precipitated molecular self-assemblies led to bulk supramolecular films. Massive fabrication of supramolecular films became possible by employing a simple household noodle machine. The film could be endowed to acquire diversified functions by depositing various functional ingredients via coprecipitation. We expect that our current work opens up a new paradigm leading to large-scale functional solid molecular self-assembled materials.

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Slippery Graphene-Bridging Liquid Metal Layered Heterostructure Nanocomposite for Stable High-Performance Electromagnetic Interference Shielding

Sun

Han

Guo

et al. 2023

ACS Nano

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Gallium-based liquid metal (LM) with intriguing high electrical conductivity and room-temperature fluidity has attracted substantial attention for its potential application in flexible electromagnetic interference (EMI) shielding. However, the EMI shielding performance of the existing LM-based composites is unsatisfying due to the irreconcilable contradiction between high EMI shielding efficiency (SE) and low thickness. In addition, the research on environmentally stable EMI shielding material has become an urgent need due to the increasingly sophisticated application scenarios. Herein, we prepared a reduced graphene oxide (rGO) bridging LM layered heterostructure nanocomposite with the liquid-infused slippery surface (S-rGO/LM), which exhibits an ultrahigh X-band EMI SE of 80 dB at a mere internal thickness of 33 μm, and an extremely high value of 100 dB at an internal thickness of 67 μm. More significantly, protected by the ultrathin (2 μm) yet effective slippery surface, the S-rGO/LM film exhibits exceptional EMI shielding stability (EMI SE stays above 70 dB) after enduring various harsh conditions (harsh chemical environments, extreme operating temperatures, and severe mechanical wearing). Moreover, the S-rGO/LM film also demonstrates satisfying photothermal behavior and excellent Joule heating performance (surface temperature of 179 °C at 1.75 V, thermal response <10 s), which endows it with the capability of anti-icing/de-icing. This work proposes a way to construct an LM-based nanocomposite with reliable high-performance EMI shielding capability, which shows great potential for applications in wearable devices, defense, and aeronautics and astronautics.

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Operational performance study on a photovoltaic loop heat pipe/solar assisted heat pump water heating system

Hong

Sun

2018

Energy and Buildings

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Effects of wall conduction, internal heat sources and an internal baffle on natural convection heat transfer in a rectangular enclosure

Sun

Emery

1997

International Journal of Heat and Mass Transfer

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Performance optimization and benefit analyses of a photovoltaic loop heat pipe/solar assisted heat pump water heating system

Hong

Sun

2019

Renewable Energy

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Yue Sun

Pressing-Induced Caking: A General Strategy to Scale-Span Molecular Self-Assembly

Slippery Graphene-Bridging Liquid Metal Layered Heterostructure Nanocomposite for Stable High-Performance Electromagnetic Interference Shielding

Operational performance study on a photovoltaic loop heat pipe/solar assisted heat pump water heating system

Effects of wall conduction, internal heat sources and an internal baffle on natural convection heat transfer in a rectangular enclosure

Performance optimization and benefit analyses of a photovoltaic loop heat pipe/solar assisted heat pump water heating system

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