drexel.edu/news/archive/2024/October/MXene-textile-energy-grid

Preview meta tags from the drexel.edu website.

Linked Hostnames

12

Thumbnail

Search Engine Appearance

Google

https://drexel.edu/news/archive/2024/October/MXene-textile-energy-grid

Off the Rack, On the Grid: MXene Nanomaterials Enable Wireless Charging in Textiles

The next step for fully integrated textile-based electronics to make their way from the lab to the wardrobe is figuring out how to power the garment gizmos without unfashionably toting around a solid battery. Researchers from Drexel University, the University of Pennsylvania, and Accenture Labs in California have taken a new approach to the challenge by building a full textile energy grid that can be wirelessly charged. In their recent study, the team reported that it can power textile devices, including a warming element and environmental sensors that transmit data in real-time.



Bing

Off the Rack, On the Grid: MXene Nanomaterials Enable Wireless Charging in Textiles

https://drexel.edu/news/archive/2024/October/MXene-textile-energy-grid

The next step for fully integrated textile-based electronics to make their way from the lab to the wardrobe is figuring out how to power the garment gizmos without unfashionably toting around a solid battery. Researchers from Drexel University, the University of Pennsylvania, and Accenture Labs in California have taken a new approach to the challenge by building a full textile energy grid that can be wirelessly charged. In their recent study, the team reported that it can power textile devices, including a warming element and environmental sensors that transmit data in real-time.



DuckDuckGo

https://drexel.edu/news/archive/2024/October/MXene-textile-energy-grid

Off the Rack, On the Grid: MXene Nanomaterials Enable Wireless Charging in Textiles

The next step for fully integrated textile-based electronics to make their way from the lab to the wardrobe is figuring out how to power the garment gizmos without unfashionably toting around a solid battery. Researchers from Drexel University, the University of Pennsylvania, and Accenture Labs in California have taken a new approach to the challenge by building a full textile energy grid that can be wirelessly charged. In their recent study, the team reported that it can power textile devices, including a warming element and environmental sensors that transmit data in real-time.

  • General Meta Tags

    35
    • title
      Off the Rack, On the Grid: MXene Nanomaterials Enable Wireless Charging in Textiles
    • title
      Drexel on Facebook
    • title
      Drexel on X
    • title
      Drexel on Facebook
    • title
      Drexel on Twitter

  • Open Graph Meta Tags

    5
    • og:title
      Off the Rack, On the Grid: MXene Nanomaterials Enable Wireless Charging in Textiles
    • og:type
      article
    • og:url
      http://drexel.edu/news/archive/2024/October/MXene-textile-energy-grid
    • og:image
      http://drexel.edu/news/~/media/Drexel/Core-Site-Group/News/Images/v2/story-images/2024/October/MXene-grid-crop1600/mxene-grid-crop1600_16x9.jpg
    • og:description
      The next step for fully integrated textile-based electronics to make their way from the lab to the wardrobe is figuring out how to power the garment gizmos without unfashionably toting around a solid battery. Researchers from Drexel University, the University of Pennsylvania, and Accenture Labs in California have taken a new approach to the challenge by building a full textile energy grid that can be wirelessly charged. In their recent study, the team reported that it can power textile devices, including a warming element and environmental sensors that transmit data in real-time.

  • Twitter Meta Tags

    4
    • twitter:card
      summary_large_image
    • twitter:title
      Off the Rack, On the Grid: MXene Nanomaterials Enable Wireless Charging in Textiles
    • twitter:description
      The next step for fully integrated textile-based electronics to make their way from the lab to the wardrobe is figuring out how to power the garment gizmos without unfashionably toting around a solid battery. Researchers from Drexel University, the University of Pennsylvania, and Accenture Labs in California have taken a new approach to the challenge by building a full textile energy grid that can be wirelessly charged. In their recent study, the team reported that it can power textile devices, including a warming element and environmental sensors that transmit data in real-time.
    • twitter:image:src
      http://drexel.edu/news/~/media/Drexel/Core-Site-Group/News/Images/v2/story-images/2024/October/MXene-grid-crop1600/mxene-grid-crop1600_16x9.jpg

  • Item Prop Meta Tags

    3
    • name
      Off the Rack, On the Grid: MXene Nanomaterials Enable Wireless Charging in Textiles
    • description
      The next step for fully integrated textile-based electronics to make their way from the lab to the wardrobe is figuring out how to power the garment gizmos without unfashionably toting around a solid battery. Researchers from Drexel University, the University of Pennsylvania, and Accenture Labs in California have taken a new approach to the challenge by building a full textile energy grid that can be wirelessly charged. In their recent study, the team reported that it can power textile devices, including a warming element and environmental sensors that transmit data in real-time.
    • image
      http://drexel.edu/news/~/media/Drexel/Core-Site-Group/News/Images/v2/story-images/2024/October/MXene-grid-crop1600/mxene-grid-crop1600_16x9.jpg

  • Link Tags

    5
    • shortcut icon
      /~/media/Drexel/Project/Standard/FavIcon.ico
    • stylesheet
      /carbon/css/drexel-base-generated.css
    • stylesheet
      /carbon/css/drexel-structure-generated.css
    • stylesheet
      /carbon/css/drexel-base-theme-generated.css
    • stylesheet
      /carbon/css/drexel-now-theme-generated.css

Emails

2

Links

64