Braden Max Li

College of Textiles

Works (9)

Updated: July 5th, 2023 14:34

2022 article

Adhesive free, conformable and washable carbon nanotube fabric electrodes for biosensing

Hossain, M. M., Li, B. M., Sennik, B., Jur, J. S., & Bradford, P. D. (2022, December 9). Npj Flexible Electronics.

By: M. Hossain n, B. Li n, B. Sennik n, J. Jur n & P. Bradford n

topics (OpenAlex): Advanced Sensor and Energy Harvesting Materials; Conducting polymers and applications; Muscle activation and electromyography studies
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Source: Web Of Science
Added: January 3, 2023

2022 article

Design of a scalable, flexible, and durable thermoelectric cooling device for soft electronics using Kirigami cut patterns

Rosenberg, Z. B., Weiner, N. C., Shahariar, H., Li, B. M., Peavey, J. L., Mills, A. C., … Jur, J. S. (2022, January 6). Flexible and Printed Electronics, Vol. 3.

By: Z. Rosenberg n, N. Weiner n, H. Shahariar n, B. Li n, J. Peavey n, A. Mills n, M. Losego*, J. Jur n

author keywords: e-textiles; flexible thermoelectrics; thermoelectric cooling devices; flexible electronics; wearable electronics
topics (OpenAlex): Advanced Thermoelectric Materials and Devices; Advanced Sensor and Energy Harvesting Materials; Thermal Radiation and Cooling Technologies
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Sources: Web Of Science, NC State University Libraries
Added: January 31, 2022

2022 article

Textile‐Integrated Liquid Metal Electrodes for Electrophysiological Monitoring

Li, B. M., Reese, B. L., Ingram, K., Huddleston, M. E., Jenkins, M., Zaets, A., … Tabor, C. E. (2022, June 23). Advanced Healthcare Materials, Vol. 7.

By: B. Li n, B. Reese*, K. Ingram*, M. Huddleston*, M. Jenkins*, A. Zaets*, M. Reuter*, M. Grogg* ...

author keywords: airbrush; e-textiles; flexible electronics; smart textiles; soft electrodes; spray coating
MeSH headings : Electric Conductivity; Electric Impedance; Electrodes; Metals; Textiles
topics (OpenAlex): Advanced Sensor and Energy Harvesting Materials; Tactile and Sensory Interactions; Conducting polymers and applications
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Sources: Web Of Science, ORCID, NC State University Libraries
Added: June 23, 2022

2021 article

Airbrushed PVDF–TrFE Fibrous Sensors for E-Textiles

Li, B. M., Ju, B., Zhou, Y., Knowles, C. G., Rosenberg, Z., Flewwellin, T. J., … Jur, J. S. (2021, November 29). ACS Applied Electronic Materials, Vol. 11.

By: B. Li n, B. Ju n, Y. Zhou n, C. Knowles n, Z. Rosenberg n, T. Flewwellin n, F. Kose n, J. Jur n

author keywords: solution blow spinning; nanofibers; PVDF-TrFE scaffold; nonwovens; piezoelectric
topics (OpenAlex): Advanced Sensor and Energy Harvesting Materials; Tactile and Sensory Interactions; Electrospun Nanofibers in Biomedical Applications
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7. Affordable and Clean Energy (Web of Science; OpenAlex)
Sources: Web Of Science, ORCID, NC State University Libraries
Added: December 1, 2021

2021 article

Influence of Armband Form Factors on Wearable ECG Monitoring Performance

Li, B. M., Mills, A. C., Flewwellin, T. J., Herzberg, J. L., Bosari, A. S., Lim, M., … Jur, J. S. (2021, February 20). IEEE Sensors Journal.

By: B. Li n, A. Mills n, T. Flewwellin n, J. Herzberg, A. Bosari, M. Lim n, Y. Jia n, J. Jur n

author keywords: Electrodes; Electrocardiography; Textiles; Sensors; Biomedical monitoring; Monitoring; Force; Textiles; E-textiles; compression garment; textile design; biometric devices; body sensor networks; cyber-physical systems; electrocardiography; dry electrode; screen printing
topics (OpenAlex): Advanced Sensor and Energy Harvesting Materials; Muscle activation and electromyography studies; Non-Invasive Vital Sign Monitoring
TL;DR: The role of electrode location and contact pressure on the ECG sensing performance of an electronic textile armband worn on the upper left arm is elucidated and the fundamental design parameters discussed serve as a benchmark for the design of future E-textile and wearable form factors with efficient sensing performance. (via Semantic Scholar)
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9. Industry, Innovation and Infrastructure (OpenAlex)
Sources: Web Of Science, NC State University Libraries
Added: May 10, 2021

2021 article

Inkjet Printed Textile Force Sensitive Resistors for Wearable and Healthcare Devices

Ju, B., Kim, I., Li, B. M., Knowles, C. G., Mills, A., Grace, L., & Jur, J. S. (2021, July 1). Advanced Healthcare Materials, Vol. 7.

By: B. Ju n, I. Kim n, B. Li n, C. Knowles n, A. Mills n, L. Grace n, J. Jur n

author keywords: E-textiles; flexible electronics; force sensitive resistors; inkjet printing; piezoresistive sensors; wearable healthcare devices
MeSH headings : Delivery of Health Care; Electric Conductivity; Electrodes; Humans; Textiles; Wearable Electronic Devices
topics (OpenAlex): Advanced Sensor and Energy Harvesting Materials; Tactile and Sensory Interactions; Conducting polymers and applications
TL;DR: This work presents a novel technique for developing textile FSRs (TFSRs) using a combination of inkjet printing of metal‐organic decomposition silver inks and heat pressing for facile integration into textiles. (via Semantic Scholar)
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Sources: Web Of Science, NC State University Libraries, ORCID
Added: July 12, 2021

2021 article

Microstructures in All-Inkjet-Printed Textile Capacitors with Bilayer Interfaces of Polymer Dielectrics and Metal–Organic Decomposition Silver Electrodes

Kim, I., Ju, B., Zhou, Y., Li, B. M., & Jur, J. S. (2021, May 14). ACS Applied Materials & Interfaces, Vol. 13, pp. 24081–24094.

By: I. Kim n, B. Ju n, Y. Zhou n, B. Li n & J. Jur n

author keywords: e-textiles; inkjet printing; polymer dielectrics; MOD silver ink; interface behavior; flexible electronics
topics (OpenAlex): Advanced Sensor and Energy Harvesting Materials; Nanomaterials and Printing Technologies; Liquid Crystal Research Advancements
TL;DR: How textiles' unique microstructures and bilayer dielectric layer designs benefit reliability and scalability in the inkjet process as well as the use in wearable electronics with electromechanical performance is demonstrated. (via Semantic Scholar)
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UN Sustainable Development Goal Categories
Sources: Web Of Science, ORCID, NC State University Libraries
Added: May 15, 2021

2020 article

Iron-on carbon nanotube (CNT) thin films for biosensing E-Textile applications

Li, B. M., Yildiz, O., Mills, A. C., Flewwellin, T. J., Bradford, P. D., & Jur, J. S. (2020, June 25). Carbon, Vol. 168, pp. 673–683.

By: B. Li n, O. Yildiz n, A. Mills n, T. Flewwellin n, P. Bradford n & J. Jur n

author keywords: E-Textiles; Electrocardiogram (ECG); Composite materials; Carbon nanotubes; Biometric devices
topics (OpenAlex): Advanced Sensor and Energy Harvesting Materials; Conducting polymers and applications; Neuroscience and Neural Engineering
UN Sustainable Development Goals Color Wheel
UN Sustainable Development Goal Categories
Sources: Web Of Science, NC State University Libraries
Added: September 21, 2020

2020 article

Self-Powered Cardiac Monitoring: Maintaining Vigilance With Multi-Modal Harvesting and E-Textiles

Ruiz, L. J. L., Ridder, M., Fan, D., Gong, J., Li, B. M., Mills, A. C., … Lach, J. (2020, August 19). IEEE Sensors Journal, Vol. 21, pp. 2263–2276.

By: L. Ruiz*, M. Ridder*, D. Fan*, J. Gong*, B. Li n, A. Mills n, E. Cobarrubias n, J. Strohmaier n, J. Jur n, J. Lach*

author keywords: Monitoring; Biomedical monitoring; Sensor systems; Energy harvesting; Wearable sensors; Wireless communication; Atrial fibrillation; Bluetooth; body sensor networks; cyber-physical systems; energy harvesting; E-textiles; low-power electronics; remote monitoring; self-powered; smart textiles; wearable; wireless
topics (OpenAlex): Wireless Body Area Networks; Advanced Sensor and Energy Harvesting Materials; Green IT and Sustainability
TL;DR: This paper introduces a self-powered system for uninterrupted vigilant cardiac and activity monitoring that senses and streams electrocardiogram (ECG) and motion data continuously to a smartphone while consuming only $683~\mu \text{W}$ on average. (via Semantic Scholar)
UN Sustainable Development Goals Color Wheel
UN Sustainable Development Goal Categories
Sources: Web Of Science, NC State University Libraries
Added: January 19, 2021

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