Zhilin Xia scite author profile

Thermal homeostasis can maintain body temperature of warm-blooded organisms in a narrow range to avoid hypothermia, ensuring the normal operation of life activities. Thermal homeostasis can make the internal temperature of target relatively insensitive to temperature changes of surrounding environment, which is of great significance to the efficient operation of equipment and the service life of material. The current systems that maintain thermal homeostasis need to consume electricity, which is very detrimental to energy consumption and global warming. Here, we propose a novel thermal homeostasis program by means of tunable sunlight-scattering behaviors of thermochromic hydrogel, without external energy input such as electrical energy and mechanical energy. A sandwich structure thermal homeostasiser (SSTH) generated by the thermal homeostasis program consists of three parts: the radiative cooling part at the top, the thermochromic part in the middle and the solar heating part at the bottom. The feasibility of thermal homeostasis based on SSTH has been verified theoretically and experimentally. With the ambient air temperature difference of more than 6 °C, SSTH can maintain its own temperature difference within 1.2 °C. The SSTH is a simple-feasible paradigm for achieving thermal homeostasis. This new thermal homeostasis method we proposed can fill the vacancy of the current thermal homeostasis control means and show great potential as a complementary mean of the existing building environment control system to go a step further toward zero-energy building.

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High-capacity optical long data memory based on enhanced Young’s modulus in nanoplasmonic hybrid glass composites

Zhang¹,

Xia

Cheng

et al. 2018

Nat Commun

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Emerging as an inevitable outcome of the big data era, long data are the massive amount of data that captures changes in the real world over a long period of time. In this context, recording and reading the data of a few terabytes in a single storage device repeatedly with a century-long unchanged baseline is in high demand. Here, we demonstrate the concept of optical long data memory with nanoplasmonic hybrid glass composites. Through the sintering-free incorporation of nanorods into the earth abundant hybrid glass composite, Young’s modulus is enhanced by one to two orders of magnitude. This discovery, enabling reshaping control of plasmonic nanoparticles of multiple-length allows for continuous multi-level recording and reading with a capacity over 10 terabytes with no appreciable change of the baseline over 600 years, which opens new opportunities for long data memory that affects the past and future.

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Surgical Correction of Haglund's Triad Using a Central Tendon-Splitting Approach: A Retrospective Outcomes Study

Xia

Yew

Zhang

et al. 2017

The Journal of Foot and Ankle Surgery

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Zhilin Xia

Robot-Assisted Total Knee Arthroplasty Accurately Restores the Joint Line and Mechanical Axis. A Prospective Randomised Study

Thermal Homeostasis Enabled by Dynamically Regulating the Passive Radiative Cooling and Solar Heating Based on a Thermochromic Hydrogel

High-capacity optical long data memory based on enhanced Young’s modulus in nanoplasmonic hybrid glass composites

Surgical Correction of Haglund's Triad Using a Central Tendon-Splitting Approach: A Retrospective Outcomes Study

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