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publications
Fluorescence-Enhanced Bio-Detection Platforms Obtained Through Controlled Step-by-Step Clustering of Silver Nanoparticles
Published in Nanoscale, 2018
This study demonstrates the development of fluorescence-enhanced bio-detection platforms through controlled clustering of silver nanoparticles.
Recommended citation: Panpan Liu, Ying Zhou, Min Guo, Shuguang Yang, Olivier Félix, David Martel, Yiping Qiu, Ying Ma, Gero Decher. (2018). "Fluorescence-Enhanced Bio-Detection Platforms Obtained Through Controlled Step-by-Step Clustering of Silver Nanoparticles." Nanoscale.
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Inkjet Process for Conductive Patterning on Textiles: Maintaining Inherent Stretchability and Breathability in Knit Structures
Published in Advanced Functional Materials, 2019
This paper presents an inkjet printing process for conductive patterning on textiles, preserving stretchability and breathability in knit structures.
Recommended citation: Inhwan Kim, Hasan Shahariar, Wade F. Ingram, Ying Zhou, Jesse S. Jur. (2019). "Inkjet Process for Conductive Patterning on Textiles: Maintaining Inherent Stretchability and Breathability in Knit Structures." Advanced Functional Materials.
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Kirigami-Inspired Textile Electronics: K.I.T.E.
Published in Advanced Materials Technologies, 2019
An exploration of kirigami-inspired designs in textile electronics for wearable applications.
Recommended citation: Ying Zhou. (2019). "Kirigami-Inspired Textile Electronics: K.I.T.E." Advanced Materials Technologies.
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Low-Profile Strip-Loaded Textile Antenna with Enhanced Bandwidth and Isolation for Full-Duplex Wearable Applications
Published in IEEE Transactions on Antennas and Propagation, 2020
An analysis of a low-profile strip-loaded textile antenna designed to enhance bandwidth and isolation in wearable applications.
Recommended citation: Ying Zhou. (2020). "Low-Profile Strip-Loaded Textile Antenna with Enhanced Bandwidth and Isolation for Full-Duplex Wearable Applications." IEEE Transactions on Antennas and Propagation.
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Efficient Sub-15 nm Cubic-Phase Core/Shell Upconversion Nanoparticles as Reporters for Ensemble and Single Particle Studies
Published in Nanoscale, 2020
This research introduces a novel core/shell nanoparticle design for use as efficient reporters in biological imaging.
Recommended citation: Meiling Tan, Melissa-Jane Monks, Dingxin Huang, Yongjun Meng, Xuewen Chen, Ying Zhou, Shuang-Fang Lim, Christian Würth, Ute Resch-Genger, Guanying Chen. (2020). "Efficient Sub-15 nm Cubic-Phase Core/Shell Upconversion Nanoparticles as Reporters for Ensemble and Single Particle Studies." Nanoscale.
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Direct-Write Spray Coating of a Full-Duplex Antenna for E-Textile Applications
Published in Micromachines, 2020
This paper presents the direct-write spray coating method for full-duplex antennas in e-textile applications.
Recommended citation: Ying Zhou, Saber Soltani, Braden M. Li, Yuhao Wu, Inhwan Kim, Henry Soewardiman, Douglas H. Werner, Jesse S. Jur. (2020). "Direct-Write Spray Coating of a Full-Duplex Antenna for E-Textile Applications." Micromachines.
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Microstructures in All-Inkjet-Printed Textile Capacitors with Bilayer Interfaces of Polymer Dielectrics and Metal–Organic Decomposition Silver Electrodes
Published in ACS Applied Materials & Interfaces, 2021
A study on the microstructures in all-inkjet-printed textile capacitors with bilayer polymer dielectric interfaces and silver electrodes.
Recommended citation: Inhwan Kim, Beomjun Ju, Ying Zhou, Braden M. Li, Jesse S. Jur. (2021). "Microstructures in All-Inkjet-Printed Textile Capacitors with Bilayer Interfaces of Polymer Dielectrics and Metal–Organic Decomposition Silver Electrodes." ACS Applied Materials & Interfaces.
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Airbrushed PVDF–TrFE Fibrous Sensors for E-Textiles
Published in ACS Applied Electronic Materials, 2021
This study investigates the airbrushing method for creating PVDF–TrFE fibrous sensors for integration into e-textiles.
Recommended citation: Braden M. Li, Beomjun Ju, Ying Zhou, Caitlin G. Knowles, Zoë Rosenberg, Tashana J. Flewwellin, Furkan Kose, Jesse S. Jur. (2021). "Airbrushed PVDF–TrFE Fibrous Sensors for E-Textiles." ACS Applied Electronic Materials.
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Interconnected Cathode-Electrolyte Double-Layer Enabling Continuous Li-ion Conduction Throughout Solid-State Li-S Battery
Published in Energy Storage Materials, 2022
This paper presents a design for an interconnected cathode-electrolyte double-layer to enhance Li-ion conduction in solid-state Li-S batteries.
Recommended citation: Chaoyi Yan, Ying Zhou, Hui Cheng, Raphael Orenstein, Pei Zhu, Ozkan Yildiz, Philip Bradford, Jesse Jur, Nianqiang Wu, Mahmut Dirican et al. (2022). "Interconnected Cathode-Electrolyte Double-Layer Enabling Continuous Li-ion Conduction Throughout Solid-State Li-S Battery." Energy Storage Materials.
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Design of Quasi-Endfire Spoof Surface Plasmon Polariton Leaky-Wave Textile Wearable Antennas
Published in IEEE ACCESS, 2022
This paper discusses the design and implementation of a quasi-endfire spoof surface plasmon polariton leaky-wave textile wearable antenna.
Recommended citation: Yuhao Wu, Saber Soltani, Busra Sennik, Ying Zhou, Galestan Mackertich-Sengerdy, Eric B. Whiting, Douglas H. Werner, Jesse S. Jur. (2022). "Design of Quasi-Endfire Spoof Surface Plasmon Polariton Leaky-Wave Textile Wearable Antennas." IEEE ACCESS.
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Textile-Integrated Liquid Metal Electrodes for Electrophysiological Monitoring
Published in Advanced Healthcare Materials, 2022
Exploring the use of textile-integrated liquid metal electrodes for non-invasive electrophysiological monitoring applications.
Recommended citation: Braden M. Li, Brandon L. Reese, Katherine Ingram, Mary E. Huddleston, Meghan Jenkins, Allison Zaets, Matthew Reuter, Matthew W. Grogg, M. Tyler Nelson, Ying Zhou et al. (2022). "Textile-Integrated Liquid Metal Electrodes for Electrophysiological Monitoring." Advanced Healthcare Materials.
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talks
Nanoplasmonic Upconverting Nanoparticles as Orientation Sensors for Single Particle Microscopy
Published:
This presentation covered the use of nanoplasmonic upconverting nanoparticles as orientation sensors in single particle microscopy. This topic explored the potential applications of nanoparticles in precise orientation sensing for advanced microscopy techniques.
All-Textile Antenna by Printing Method
Published:
This poster presented the development of an all-textile antenna created through advanced printing methods. Presented at the ASSIST Meeting in January 2019 and again in November 2019, this work focused on wearable antenna applications through innovative textile integration.
Inkjet Printing on Multi-Capacitor
Published:
This poster and presentation detailed the technique of inkjet printing on multi-capacitor structures for dielectric and piezoelectric applications. Presented at multiple CDP Meetings in October 2019, May 2020, October 2020, and June 2021, this work contributed to advancements in printed electronics and sensor technology.
Flexible Antenna via Printing Method
Published:
This talk presented the development of flexible antennas created through innovative printing methods, highlighting potential applications in flexible electronics and wearable technology. The presentation was delivered at the Materials Research Society (MRS) Meeting, held from November 27 to December 4, contributing to advancements in flexible, printed antenna designs.
teaching
Teaching Assistant - Chemistry Experiments
Undergraduate Course, Donghua University, Department of Chemistry, 2015
Overview
As a Teaching Assistant for undergraduate chemistry courses, I helped students with hands-on lab experiments and theoretical concepts.
Teaching Assistant - Physics Courses
Undergraduate Course, North Carolina State University, Department of Physics, 2017
Overview
In this role, I provided teaching support for the following courses:
- PY 131 Lab: Conceptual Physics
- PY 212-001H: College Physics II
Research and Development (RDU) Experience
Research Role, North Carolina State University, 2019
Overview
As part of my role in the Research and Development Unit (RDU) at North Carolina State University, I was responsible for designing and implementing research projects for undergraduate students. This experience enhanced my ability to manage research processes, optimize experiments, and mentor students.