WEAVeING: Wearable Advanced fibre-based Electronics Integrated Manufacturing

编织：可穿戴先进纤维电子集成制造

基本信息

批准号：
EP/T005106/1
负责人：
Felice Torrisi
金额：
$ 28.82万
依托单位：
Imperial College London
依托单位国家：
英国
项目类别：
Research Grant
财政年份：
2019
资助国家：
英国
起止时间：
2019 至无数据
项目状态：
已结题

来源：
https://gtr.ukri.org/projects?ref=EP%2FT005106%2F1
关键词：
WEAVeING Wearable Advanced fibre based

项目摘要

Wearable electronics are at the core of academic and industrial research and development as they present a market opportunity in excess of $53 billion in the RCUK strategic areas of healthcare and wellbeing, energy. This technology promises to play a key role in enabling the Internet of Things and integrated electronic systems, such as the Body Area Network concept. Wearable electronics currently relies on rigid and flexible electronic technologies which offer limited skin-compatibility in many circumstances, suffer washing and are uncomfortable to wear because they are not breathable. Turning textiles into electronic components will address these issues, by unlocking ultimately wearable electronics potential through electronic textiles. Work is already underway to have breathable, washable and skin-compatible electronic textiles. However, progress towards wearable all-textile electronic devices and integrated systems has been held back by the absence of circuit design rules and textile integration processes for fibre-based components, which challenges the large-scale manufacturing of integrated textile circuits. Despite individual device demonstration, both integration processes lack from figures of merit and design rules, which consider electronics on a textile form factor and allow linking the physical properties of fibre-based components with the final device performances. This has been key in the establishment and standardisation of planar silicon-based electronics as we know it, and represents a fundamental enabling step for the large-scale implementation of wearable electronic textiles. Without design rules and integration processes, it is extremely difficult to develop competitive wearable devices suitable for commercialisation.WEAVeING will pioneer the innovative manufacturing tools to enable wearable electronic textile integrated systems by developing electronic textile design and large-scale integration processes for washable, breathable and skin-compatible fibre-based electronic components.

可穿戴电子设备是学术和工业研发的核心，因为它们在RCUK的医疗保健和福祉，能源的RCUK战略领域提供了超过530亿美元的市场机会。这项技术有望在启用物联网和集成的电子系统（例如车身领域网络概念）方面发挥关键作用。可穿戴的电子产品目前依赖于刚性和柔性的电子技术，这些技术在许多情况下提供有限的皮肤兼容，遭受洗涤，并且由于不透气而感到不舒服。将纺织品变成电子组件将通过通过电子纺织品解锁最终可穿戴电子电位来解决这些问题。工作已经在进行中，具有透气，可洗和皮肤兼容的电子纺织品。但是，由于缺乏电路设计规则和基于纤维的组件的电路设计规则和纺织品集成过程，已阻止了可穿戴全型电子设备和集成系统的进展，这挑战了集成纺织电路的大规模制造。尽管进行了单个设备的演示，但两个集成过程都缺乏功绩和设计规则的数字，这些过程考虑了纺织外形上的电子设备，并允许将基于纤维的组件的物理性质与最终设备性能联系起来。这是我们所知道的基于平面硅电子产品的建立和标准化的关键，并且代表了大规模实施可穿戴电子纺织品的基本启示步骤。没有设计规则和集成流程，很难开发适合商业化的竞争性可穿戴设备。编织将通过开发电子纺织品设计和大型集成过程来启用可穿戴的电子纺织品集成系统的创新制造工具，以供可洗涤，可洗的，可透气，透气，且可透气，透气皮肤兼容纤维基的电子组件。

项目成果

期刊论文数量（9）

专著数量（0）

科研奖励数量（0）

会议论文数量（0）

专利数量（0）

Challenges and opportunities in free-standing supercapacitors research

DOI：
10.1063/5.0123453
发表时间：
2022-11
期刊：
APL Materials
影响因子：
6.1
作者：
K. G. Latham;A. A. Edathil-A.;B. Rezaei;Sihui Liu;S. Nguyen;S. Keller;F. Torrisi;E. Greenhalgh
通讯作者：
K. G. Latham;A. A. Edathil-A.;B. Rezaei;Sihui Liu;S. Nguyen;S. Keller;F. Torrisi;E. Greenhalgh

Graphene production by cracking.

DOI：
10.1098/rsta.2020.0293
发表时间：
2021-08-09
期刊：
Philosophical transactions. Series A, Mathematical, physical, and engineering sciences
影响因子：
0
作者：
Bohm S;Ingle A;Bohm HLM;Fenech-Salerno B;Wu S;Torrisi F
通讯作者：
Torrisi F

Conducting materials as building blocks for electronic textiles.