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Twistron Mechanical Energy Harvesters
Mechanical energy harvesters are needed for diverse applications, including self-powered wireless sensors, structural and human health monitoring systems, automotive technologies, and the extraction of energy from ocean waves. Until now, few harvesters have been flexible enough to be used as yarns in
textiles
, and the performance of such yarns has been...
Published: 6/26/2024
|
Inventor(s):
Shi Hyeong Kim
,
Carter Haines
,
Na Li
,
Keon Jung Kim
,
Tae Jin Mun
,
Changsoon Choi
,
Jiangtao Di
,
Shaoli Fang
,
Seon Jeong Kim
,
Ray Baughman
Keywords(s):
Automotive
,
Carbon Nanomaterials
,
Carbon Nanotubes
,
Electronics
,
Energy, Cleantech & Environmental
,
Engineering & Physical Sciences
,
Renewable Energy
,
Sensors & Controls
,
Textiles
,
Wireless
Category(s):
Nanotechnology
Intelligent
Textiles
Prepared from Nanofiber Yarns and Polymer Fiber Actuators
While there has always been a desire for smart
textiles
, including fabrics which adapt depending on environmental stimuli, it has yet to be effectively accomplished due to the lack of suitable materials. These polymer fiber actuators have enabled the creation of fabrics that can reversibly change properties such as porosity, shape, color and texture....
Published: 4/22/2021
|
Inventor(s):
Ray Baughman
,
Ozer Goktepe
,
Fatma Goktepe
,
Na Li
,
Marcio Lima
,
Carter Haines
,
Shaoli Fang
Keywords(s):
Engineering & Physical Sciences
,
Industrial & Manufacturing
,
Nanotechnology
,
Polymers
,
Textiles
Category(s):
Materials
Sheath-Core Fibers for Superelastic Electronics, Sensors, and Muscles
Summary:From fitness trackers to smart clothing, wearables are in high demand. Researchers at UT Dallas have invented a new class of elastic wires that can be woven into clothing or made into super-stretchy charger cords. Lighter-than-air, electrically conductive sheets of tiny carbon nanotubes are wrapped around a long rubber core to create conducting...
Published: 4/26/2019
|
Inventor(s):
Ray Baughman
,
Shaoli Fang
,
Carter Haines
,
Hongbing Lu
,
Dong Qian
Keywords(s):
Biomaterials
,
Industrial & Manufacturing
,
Mechanical Systems
,
Medical Devices
,
Motors
,
Nanotechnology
,
Polymers
,
Robotics
,
Sensors & Controls
,
Textiles
Category(s):
Materials
,
Electronics
Novel Nitric Oxide Releasing Surgical Sutures, Bandages and Fabrics
Non-Confidential DescriptionThe technology is novel nitric oxide (NO) releasing acrylonitrile-based copolymer and terpolymer fibers that can be used as surgical sutures or non-woven bandages and fabrics that enhance wound healing. These copolymers have a higher NO loading capacity per gram than other known NO releasing acrylonitrile polymers. In addition,...
Published: 4/26/2019
|
Inventor(s):
Kenneth Balkus
,
Alysia Lowe
,
Dennis Smith
,
Wenjin Deng
Keywords(s):
Biocompatible
,
Drug Delivery
,
Healthcare
,
Life Sciences
,
Materials
,
Medical
,
Medical Devices
,
Polymers
,
Textiles
,
Therapeutics
Category(s):
Healthcare
Biscrolling Nanopowders and Carbon Nanotube Sheets into Fibers, Yarns and
Textiles
Non-Confidential Description:The technology is the first known method to spin biscrolled fibers/yarns from nanopowder materials using carbon nanotube (CNT) sheets as the host. Nanopowder materials (nanoparticles, nanofibers) are loaded onto the CNT sheets to form bi-layered sheets, which are then scrolled into fibers. A key advantage of this technology...
Published: 6/26/2024
|
Inventor(s):
Ray Baughman
,
Shaoli Fang
,
Marcio Lima
,
Raquel Robles
,
Xavier Lepro-Chavez
,
Mohammad Haque
,
Anvar Zakhidov
,
Chihye Lewis Azad
,
Javier Carretero-Gonzalez
,
Elizabet Castillo-Martinez
,
Carter Haines
,
David Novitski
,
Mikhail Kozlov
Keywords(s):
Chemistry
,
Coatings
,
Drug Delivery
,
Electronics
,
Energy Storage & Battery
,
Engineering & Physical Sciences
,
Healthcare
,
Processes
,
Semiconductor, MEMS & Nanotechnology
,
Textiles
Category(s):
Materials
,
Nanotechnology
Electrolyte-Free Charge Injection Tuning of Carbon Nanotube Sheets – Offering Novel Supercapacitor Technology
This invention utilizes bulk material property modification via hole or electron injection into conducting and porous materials including but not limited to carbon nanotubes. Bulk carbon nanotube (CNT) assemblies (sheets, rods, etc) can be charged electrochemically in an electrolyte bath. After the CNT sheet is charged (positively or negatively) in...
Published: 4/26/2019
|
Inventor(s):
Dong-Seok Suh
,
Ray Baughman
,
Anvar Zakhidov
Keywords(s):
Carbon Nanotubes
,
Chemistry
,
Devices
,
Drug Delivery
,
Energy Storage & Battery
,
Engineering & Physical Sciences
,
Nanotechnology
,
Research Tools
,
Textiles
Category(s):
Energy
,
Materials
,
Electronics
Fuel-Powered Artificial Muscles
These inventions are new, highly-efficient actuators which can function as artificial muscles. They are 100 times stronger than natural muscles, able to do 100 times greater work per cycle, and produce larger contractions than natural muscles. Developed using nanotechnology, these actuators are powered through two methods that convert the chemical energy...
Published: 4/26/2019
|
Inventor(s):
Ray Baughman
,
Von Ebron
,
Zhiwei Yang
,
Daniel Seyer
,
Mikhail Kozlov
,
Jiyoung Oh
,
Hui Xie
,
Joselito Razal
,
John Ferraris
,
Alan Macdiarmid
,
William Macaulay
Keywords(s):
Chemistry
,
Coatings
,
Devices
,
Engineering & Physical Sciences
,
Fuel Cells
,
Industrial & Manufacturing
,
Mechanical Systems
,
Motors
,
Nanotechnology
,
Processes
,
Robotics
,
Textiles
Category(s):
Materials
A Method of Storage and Controlled Delivery of Nitric Oxide
Invention:The invention is unique Titanium dioxide nanotubes decorated with NO releasing groups to store and deliver NO using photochemical methods in both external and internal medical treatments. It provides a method of storing NO that can be delivered to targeted spaces and a controlled photodynamic activation process that eliminates any potential...
Published: 6/29/2024
|
Inventor(s):
Kenneth Balkus
,
Chalita Ratanatawanate
Keywords(s):
Biocompatible
,
Chemistry
,
Drug Delivery
,
Engineering & Physical Sciences
,
Materials
,
Medical Devices
,
Textiles
,
Therapeutics
Category(s):
Biomedical
,
Nanotechnology
,
Healthcare