Shengtai Qian scite author profile

Shengtai Qian

3Publications

24Citation Statements Received

265Citation Statements Given

How they've been cited

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265

260

Affiliations

Nanyang Technological University, Beihang University

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A ‘Moore's law’ for fibers enables intelligent fabrics

Qian

Dou

et al. 2022

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Fabrics are an indispensable part of our everyday life. They provide us with protection, offer privacy, and form an intimate expression of ourselves through their aesthetics. Imparting functionality at the fiber level represents an intriguing path toward innovative fabrics with a hitherto unparalleled functionality and value. The fiber technology based on thermal drawing of a perform, which is identical in its materials and geometry to the final fiber, has emerged as a powerful platform for the production of exquisite fibers with prerequisite composition, geometric complexity, and control over feature size. A ‘Moore's law’ for fibers is emerging, delivering higher forms of function that are important for a broad spectrum of practical applications in healthcare, sports, robotics, space exploration, etc. In this Review, we survey progress in thermally-drawn fibers and devices and discuss their relevance to ‘smart’ fabrics. A new generation of fabrics that can see, hear and speak, sense, communicate, harvest and store energy, as well as store and process data is anticipated. We conclude with a critical analysis of existing challenges and opportunities currently faced by thermally-drawn fibers and fabrics that are expected to become sophisticated platforms delivering value-added services for our society.

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Piezoelectric fibers for flexible and wearable electronics

Qian

Wang

Yan

2023

Front. Optoelectron.

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Flexible and wearable electronics represent paramount technologies offering revolutionized solutions for medical diagnosis and therapy, nerve and organ interfaces, fabric computation, robot-in-medicine and metaverse. Being ubiquitous in everyday life, piezoelectric materials and devices play a vital role in flexible and wearable electronics with their intriguing functionalities, including energy harvesting, sensing and actuation, personal health care and communications. As a new emerging flexible and wearable technology, fiber-shaped piezoelectric devices offer unique advantages over conventional thin-film counterparts. In this review, we survey the recent scientific and technological breakthroughs in thermally drawn piezoelectric fibers and fiber-enabled intelligent fabrics. We highlight the fiber materials, fiber architecture, fabrication, device integration as well as functions that deliver higher forms of unique applications across smart sensing, health care, space security, actuation and energy domains. We conclude with a critical analysis of existing challenges and opportunities that will be important for the continued progress of this field. Graphical Abstract

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Facile Synthesis of Amorphous MoCo Lamellar Hydroxide for Alkaline Water Oxidation

et al. 2021

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To find an oxygen evolution reaction (OER) catalyst with satisfactory catalytic performance and affordable cost is of great importance to the development of many new energy devices. In this work, a simple and effective strategy was developed to synthesize a series of amorphous MoCo lamellar hydroxide through one-step chemical co-precipitation. Systematic investigations showed that different functional agents (2-methylimidazole, NaOH, NH 4 OH) in the fabrication process resulted in different micromorphology of the catalyst, thus influencing its electrocatalytic performance. Also, adding various amounts of Mo could influence the intrinsic catalytic properties. Samples synthesized with appropriate functional agent addition and optimized Mo addition exhibited amorphous nature and bent nanosheet morphology, as well as highest intrinsic catalytic activity, showing a low overpotential of 290 mV at 10 mA cm À 2 and a small Tafel slope of 55 mV dec À 1 in 1 m KOH solution. Additionally, the catalytic performance of the sample showed just small decay after 50 h chronopotentiometry test and 3000 cyclic voltammetry cycles, exhibiting the ultra-stable catalytic activity of the catalyst. This work provides a possible large-scale commercial production strategy of OER catalysts with promising performance and low fabrication cost.

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Shengtai Qian

A ‘Moore's law’ for fibers enables intelligent fabrics

Piezoelectric fibers for flexible and wearable electronics

Facile Synthesis of Amorphous MoCo Lamellar Hydroxide for Alkaline Water Oxidation

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