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Start Over Author "Asaduzzaman, Md." Journal advanced functional materials
5 results on '"Asaduzzaman, Md."'

1. A MOFs‐Derived Hydroxyl‐Functionalized Hybrid Nanoporous Carbon Incorporated Laser‐Scribed Graphene‐Based Multimodal Skin Patch for Perspiration Analysis and Electrocardiogram Monitoring.

Author

Asaduzzaman, Md, Faruk, Omar, Samad, Ahmad Abdus, Kim, HongSeok, Reza, Md Selim, Lee, YeYeong, and Park, Jae Yeong

Subjects
*TRANSDERMAL medication, *ELECTROCHEMICAL sensors, *ELECTRON transport, *URIC acid, *SURFACE area, *NANOPOROUS materials
Abstract

Although metal‐organic framework (MOF)‐derived nanoporous C (NPC) materials offer several advantages for electrochemical sensor applications, surface functionalization and porosity tuning can affect sensor performance. This study presents the development of a skin patch for perspiration and electrocardiogram (ECG) monitoring, leveraging the unique properties of MOF‐on‐MOF‐derived surface‐functionalized hybrid nanoporous C (f‐HNPC) incorporated into laser‐scribed graphene (LSG). Hydroxyl (OH) group‐functionalized NPC, achieved through KOH activation, facilitates electron transport at the electrode–electrolyte interface. This enhances the electrochemical activity, thereby improving sensor sensitivity and expanding the detection range. The integration of f‐HNPC provides enhanced surface area and electrochemical properties, enabling sensitive and selective detection of sweat biomarkers, including glucose (103 µA mM−1 cm−2) and uric acid (184 µA mM−1 cm−2) along with an ultra‐wide glucose detection range (up to 41.5 mM). Moreover, the incorporation of LSG ensures excellent mechanical flexibility, facilitating conformal contact with the skin for reliable signal acquisition. The proposed skin patch demonstrates promising performance in real‐time perspiration analysis and ECG monitoring with a signal‐to‐noise ratio of 23.63 dB, along with high stability and long‐term durability. The synergistic combination of f‐HNPC and LSG shows great potential for developing advanced wearable biosensing platforms for personalized healthcare applications. [ABSTRACT FROM AUTHOR]

Published
2024
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3. A Nanoporous Carbon‐MXene Heterostructured Nanocomposite‐Based Epidermal Patch for Real‐Time Biopotentials and Sweat Glucose Monitoring (Adv. Funct. Mater. 49/2022)

Author

Zahed, Md Abu, primary, Sharifuzzaman, Md, additional, Yoon, Hyosang, additional, Asaduzzaman, Md, additional, Kim, Dong Kyun, additional, Jeong, Seonghoon, additional, Pradhan, Gagan Bahadur, additional, Shin, Young Do, additional, Yoon, Sang Hyuk, additional, Sharma, Sudeep, additional, Zhang, Shipeng, additional, and Park, Jae Yeong, additional

Published
2022
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4. β‐Phase‐Rich Laser‐Induced Hierarchically Interactive MXene Reinforced Carbon Nanofibers for Multifunctional Breathable Bioelectronics (Adv. Funct. Mater. 5/2022)

Author

Sharifuzzaman, Md, primary, Zahed, Md Abu, additional, Sharma, Sudeep, additional, Rana, S M Sohel, additional, Chhetry, Ashok, additional, Shin, Young Do, additional, Asaduzzaman, Md, additional, Zhang, Shipeng, additional, Yoon, Sanghyuk, additional, Hui, Xue, additional, Yoon, Hyosang, additional, and Park, Jae Y., additional

Published
2022
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5. β‐Phase‐Rich Laser‐Induced Hierarchically Interactive MXene Reinforced Carbon Nanofibers for Multifunctional Breathable Bioelectronics

Author

Sharifuzzaman, Md, primary, Zahed, Md Abu, additional, Sharma, Sudeep, additional, Rana, S M Sohel, additional, Chhetry, Ashok, additional, Shin, Young Do, additional, Asaduzzaman, Md, additional, Zhang, Shipeng, additional, Yoon, Sanghyuk, additional, Hui, Xue, additional, Yoon, Hyosang, additional, and Park, Jae Y., additional

Published
2021
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