Xiangjun Qi
Qingdao University
14 Papers
Xiangjun Qi is an academic researcher from Qingdao University. The author has contributed to research in topics: Medicine & Wearable computer. The author has an hindex of 4, co-authored 6 publications.
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Papers
Soft bimorph actuator with real-time multiplex motion perception
Zhao Hongtao,Run Hu,Pan Li,Anzhu Gao,Xuantong Sun,Xiaohui Zhang,Xiangjun Qi,Qiang Fan,Yida Liu,Xuqing Liu,Mingwei Tian,Guangming Tao,Lijun Qu +12 more
TL;DR: In this paper, a soft bimorph actuator with electrical and visual dual channel signal feedback functions for real-time multiplex motion perception is presented for flexible machines and artificial intelligence robotics to enable an autonomic response to surroundings.
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Wearable and Flexible Multifunctional Sensor Based on Laser-Induced Graphene for the Sports Monitoring System.
Tahir Raza,Muhammad Khurram Tufail,Afzal Ali,Andrews Boakye,Xiangjun Qi,Yulong Ma,Amjad Ali,Lijun Qu,Mingwei Tian +8 more
TL;DR: In this article , the authors designed wearable and flexible graphene-based strain and pressure sensors by laminating LIG from a commercial polyimide (PI) film and interwoven inside an elastic cotton sports fabric with the fabric glue as a wearable sensor.
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Helical core-sheath elastic yarn-based dual strain/humidity sensors with MXene sensing layer
TL;DR: In this article, a MXene sensing layer is deposited on the surface of springlike helical core-sheath polyester yarns thanks to the capillarity effect and its intrinsic hydrophilic ability, and the resultant strain sensor and humidity sensor exhibit wide detection range from 0.3 to 120% strain and 30-100% relative humidity (RH) detection.
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Wearable Sunlight-Triggered Bimorph Textile Actuators.
Zhao Hongtao,Xiangjun Qi,Yulong Ma,Xuantong Sun,Xuqing Liu,Xueji Zhang,Xueji Zhang,Mingwei Tian,Lijun Qu +8 more
TL;DR: In this article, a textile actuator that can be scalably fabricated with a traditional textile route and autonomously triggered by sunlight is reported, where active layer and passive layer of the bimorph are constructed by polypropylene tape and a MXene-modified polyamide filament.
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