手套和游戏使康复乐趣
一种适合开发康复手套的新传感器材料。
研究人员展示了印刷的可穿戴电子产品如何提供灵活性和低成本的优势。
研究人员发现了一种使用声音的力量诱使颗粒和液滴进入精确模式的方法。
Scientists have developed a soft and nonirritating microfluidic sensor for the real-time measurement of lactate concentration in sweat.
Researchers have developed a highly sensitive wearable pressure sensor for health monitoring applications and early diagnosis of diseases.
Future brain-computer interface systems employ a network of independent, wireless microscale neural sensors to record and stimulate brain activity.
Evonik医疗系统负责人Marc Knebel解释了新的高性能聚合物vestakeep Care M40 3DF的好处和应用。
一种解决疟疾在撒哈拉以南非洲的传播的新方法,该方法将负担得起的,易于管理的血液测试与机器学习和坚不可摧的加密结合在一起,从而在乌干达产生了令人鼓舞的早期结果。
Researchers have 3D printed a soft robotic hand that is agile enough to play Nintendo's Super Mario Bros. - and win!
工程师已经揭示了一个空电计算机存储器,可用于控制软机器人。它克服了气动和电子设备之间不匹配的问题。
研究人员开发了一种新材料,可以促进机器与人体之间几乎完美的合并进行诊断和治疗。
科学家已经开发并测试了一个可穿戴的生物燃料电池阵列,该阵列从佩戴者的汗液中产生电力,从乳酸上产生电力,打开了由体液提供动力的电子健康监测的门。
研究人员发现了一种方法来利用5G网络的容量过度,将它们变成了为物联网设备供电的“无线电网”。
研究人员设计了一种能够检测和处理实验室外生物学信号的细胞装置。
Nanoengineers have developed a "wearable microgrid" that harvests and stores energy from the human body to power small electronics.
Advances in wearable devices have enabled e-textiles, which fuse lightweight and comfortable textiles with smart electronics, and are garnering attention as the next-generation wearable technology.
The Fraunhofer Institutes project M³Infekt aims to develop a multi-modal, modular and mobile system of sensors for monitoring infectious diseases.
By using 3D aerosol jet-printing to put perovskites on graphene, scientists have made X-ray detectors with record sensitivity that can greatly improve the efficiency and reduce the cost.
Researchers have designed an on-chip printed 'electronic nose' that serves as a proof of concept for low-cost and sensitive devices to be used in healthcare.
A new type of ultra-efficient, nano-thin material could advance self-powered electronics, wearable technologies and even deliver pacemakers powered by heart beats.
科学家报告说,他们已经开发了导电油墨,使用户几乎可以在任何地方(即使在人类皮肤上)“编写”电路。
工程师创建了一个3D打印的智能凝胶,该凝胶在暴露于光线时会改变形状,并成为“人造肌肉”。
Researchers have developed a color-sensitive, inkjet-printed, pixelated artificial retina model.
Scientists have cracked the conundrum of how to use inks to 3D-print advanced electronic devices with useful properties, such as an ability to convert light into electricity.
已经开发出与人指纹的宽度一样小的微型微型摄影剂(MSC),并且可以直接与电子芯片直接集成。
Researchers have adapted a new class of materials for their groundbreaking volumetric 3D printing method that produces objects nearly instantly, greatly expanding the range of material properties achievable with the technique.
研究人员开发了一种新的印刷电子方法,该方法允许从环境光或射频噪声中充电的超低功率电子设备。
Researchers have developed the world's first inkjet technique for using saltwater to encapsulate Quantum dots materials.
研究人员在微米尺度上具有3D打印的独特流体通道,可以自动化用于各种医疗测试和其他应用的诊断,传感器和测定法。
研究人员使用3D打印技术来制造电子新利18官方纤维,每100倍比人的头发薄100倍,从而创造出超出传统胶片设备功能的传感器。
研究人员希望使用一美元的开源零件和3D打印的案例来制造的设备,研究人员希望帮助全球数亿年的老年人,这些老年人无法负担现有的助听器来解决与年龄有关的听力损失。
Linking the human brain to a computer is usually only seen in science fiction, but now scientists have harnessed the power of 3D printing to bring the technology one step closer to reality.
Scientists from Empa were able to 3D print stable well-shaped microstructures made from silica aerogels for use in biotechnology and precision engineering.
研究人员正在使用高分辨率印刷技术和石墨烯的独特特性来制造低成本的生物传感器来监测食品安全和牲畜健康。
Scientists have developed a 3D printing technique that could have future applications in diagnosing and monitoring the lungs of patients with COVID-19.
由NYU Tandon工程学院的团队和Max Planck协会研究所设计,是四足,狗大小的,扭矩控制的独奏8机器人,可以轻松地由世界各地的研究实验室复制。
可穿戴的智能补丁将提供精确的数据,以帮助人们个性化饮食,并降低患与生活方式有关的慢性疾病(如2型糖尿病)的风险。
EPFL衍生产品Annaida正在开发一个磁共振系统,该系统可以检测最小的生物体内的化学性质。
Researchers have utilized 3D printing and nanotechnology to create a durable, flexible sensor for wearable devices to monitor everything from vital signs to athletic performance.
Nanoedge研究项目旨在将功能化电极的生产技术收敛,并具有纳米材料制造和表征方面的专业知识。
At the start of 2019 the EU project ELSAH began with the objective of designing a wearable within four years that enables the continuous determination of biomarker concentrations.
The first demonstration of a fully print-in-place electronics technique is gentle enough to work on surfaces as delicate as human skin and paper.
使用可拉伸电子设备建造的可穿戴监视器可以长期对成年人,婴儿和小孩进行长期健康监测,而不必担心皮肤损伤或过敏反应。
Researchers have made inroads in integrating electronic sensors with personalized 3D printed prosthetics — a development that could one day lead to more affordable electric-powered prosthetics.
使用3D打印新利18官方,研究人员开发了一个葡萄糖监测仪,其稳定性和敏感性比通过传统方法制造的葡萄糖监测器要好得多。
工程师开发的新的柔性传感器可以在大面积的皮肤,组织和器官上绘制血氧水平。
Researchers have created wearable electronic devices that can monitor the health status of patients at home after heart surgery.
Robots will be able to conduct a wide variety of tasks as well as humans if they can be given tactile sensing capabilities.
工程师开发了一种高度柔韧和可拉伸的传感器,可以与流动分流器集成,以监测血管中的血液动力学,而无需昂贵的诊断程序。
研究人员正在开发一个简单的视网膜假体,可以恢复盲人的视力。它使用用于印刷油墨和化妆品的便宜且广泛可用的有机色素制造,由纳米尺度上的数码相机传感器等微型像素组成。