Zhuangzhi Sun scite author profile

Water evaporation is a natural phase change phenomenon occurring any time and everywhere. Enormous efforts have been made to harvest energy from this ubiquitous process by leveraging on the interaction between water and materials with tailored structural, chemical and thermal properties. Here, we develop a multi-layered interfacial evaporation-driven nanogenerator (IENG) that further amplifies the interaction by introducing additional bionic light-trapping structure for efficient light to heat and electric generation on the top and middle of the device. Notable, we also rationally design the bottom layer for sufficient water transport and storage. We demonstrate the IENG performs a spectacular continuous power output as high as 11.8 μW cm−2 under optimal conditions, more than 6.8 times higher than the currently reported average value. We hope this work can provide a new bionic strategy using multiple natural energy sources for effective power generation.

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High performance, flexible and renewable nano-biocomposite artificial muscle based on mesoporous cellulose/ ionic liquid electrolyte membrane

Sun

Yang

Zhang

et al. 2019

Sensors and Actuators B: Chemical

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Largely enhanced electrochemical performance in MoO 3-x nanobelts formed by a “sauna reaction”: Importance of oxygen vacancies

Sun

Yang

Liu

et al. 2017

Electrochimica Acta

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A high-efficiency bioinspired photoelectric-electromechanical integrated nanogenerator

Liu

Zhou

et al. 2020

Nat Commun

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Currently, the key challenge in triboelectric nanogenerators (TENGs) is how to efficiently enhance the surface charge density. Here, a new strategy is proposed to increase the surface charge density by comprehensively utilizing solar energy and tidal energy, and a bioinspired photoelectric-electromechanical integrated TENG (Pem-iTENG) is developed. This enhancement of output performance is greatly attributed to the accumulation of photoelectrons from photocatalysis and the triboelectric negative charges from contact electrification. Pem-iTENG shows a maximal open-circuit voltage of 124.2 V and a maximal short-circuit current density of 221.6 μA cm−2 under tidal wave and sunlight, an improvement by nearly a factor of 10 over that of reported TENGs based on solid-liquid contact electrification. More importantly, it exhibits a high energy conversion efficiency according to the evaluation method for solar cells. This work provides insights into development of high-performance TENGs by using different natural energy sources.

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Zhuangzhi Sun

A high-efficiency solar desalination evaporator composite of corn stalk, Mcnts and TiO₂: ultra-fast capillary water moisture transportation and porous bio-tissue multi-layer filtration

Achieving efficient power generation by designing bioinspired and multi-layered interfacial evaporator

High performance, flexible and renewable nano-biocomposite artificial muscle based on mesoporous cellulose/ ionic liquid electrolyte membrane

Largely enhanced electrochemical performance in MoO 3-x nanobelts formed by a “sauna reaction”: Importance of oxygen vacancies

A high-efficiency bioinspired photoelectric-electromechanical integrated nanogenerator

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Zhuangzhi Sun

A high-efficiency solar desalination evaporator composite of corn stalk, Mcnts and TiO2: ultra-fast capillary water moisture transportation and porous bio-tissue multi-layer filtration

Achieving efficient power generation by designing bioinspired and multi-layered interfacial evaporator

High performance, flexible and renewable nano-biocomposite artificial muscle based on mesoporous cellulose/ ionic liquid electrolyte membrane

Largely enhanced electrochemical performance in MoO 3-x nanobelts formed by a “sauna reaction”: Importance of oxygen vacancies

A high-efficiency bioinspired photoelectric-electromechanical integrated nanogenerator

Contact Info

Product

Resources

About

A high-efficiency solar desalination evaporator composite of corn stalk, Mcnts and TiO₂: ultra-fast capillary water moisture transportation and porous bio-tissue multi-layer filtration