Runqiao Song

Works (7)

Updated: January 17th, 2025 09:57

2025 article

Control Over Vertical Composition in Low Complexity Polymer Solar Cells

Dong, X., Lee, B., Song, R., Neu, J., Kashani, S., You, W., & Ade, H. (2025, January 2). Advanced Energy Materials, Vol. 1.

By: X. Dong n, B. Lee n, R. Song n, J. Neu*, S. Kashani n, W. You*, H. Ade n

author keywords: conventional and inverted structures; nonfullerene organic solar cell; phase separation; surface energy; thermodynamics
topics (OpenAlex): Organic Electronics and Photovoltaics; Conducting polymers and applications; Thin-Film Transistor Technologies
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7. Affordable and Clean Energy (Web of Science; OpenAlex)
Sources: Web Of Science, ORCID, NC State University Libraries
Added: January 2, 2025

2023 article

All Electrohydrodynamic Printed Flexible Organic Thin Film Transistors

Ren, P., Song, R., Zhu, Y., O'Connor, B., & Dong, J. (2023, June 21). Advanced Materials Technologies, Vol. 6.

By: P. Ren n, R. Song n, Y. Zhu n, B. O'Connor n & J. Dong n

author keywords: electrohydrodynamic printing; flexible electronics; flexible transistors; organic thin film transistors; orthogonal inks
topics (OpenAlex): Electrohydrodynamics and Fluid Dynamics; Advanced Sensor and Energy Harvesting Materials; Electrowetting and Microfluidic Technologies
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Sources: Web Of Science, NC State University Libraries, ORCID
Added: July 3, 2023

2021 article

Resolving the Molecular Origin of Mechanical Relaxations in Donor–Acceptor Polymer Semiconductors

Balar, N., Rech, J. J., Siddika, S., Song, R., Schrickx, H. M., Sheikh, N., … O'Connor, B. T. (2021, October 8). Advanced Functional Materials, Vol. 32, p. 2105597.

By: N. Balar n, J. Rech*, S. Siddika n, R. Song n, H. Schrickx n, N. Sheikh n, L. Ye n, A. Bonilla* ...

Contributors: N. Balar n, J. Rech*, S. Siddika n, R. Song n, H. Schrickx n, N. Sheikh n, L. Ye n, A. Bonilla* ...

author keywords: dynamic mechanical analysis; glass transition; mechanical stability; polymer semiconductors; thermomechanical relaxation
topics (OpenAlex): Organic Electronics and Photovoltaics; Conducting polymers and applications; Advanced Sensor and Energy Harvesting Materials
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Sources: Web Of Science, ORCID, NC State University Libraries
Added: October 11, 2021

2020 article

Achieving High-Resolution Electrohydrodynamic Printing of Nanowires on Elastomeric Substrates through Surface Modification

Ren, P., Liu, Y., Song, R., Brendan, O. C., Dong, J., & Zhu, Y. (2020, December 29). ACS Applied Electronic Materials, Vol. 3, pp. 192–202.

By: P. Ren n, Y. Liu n, R. Song n, O. Brendan n, J. Dong n & Y. Zhu n

Contributors: P. Ren n, Y. Liu n, R. Song n, . B. O'Connor n, J. Dong n & Y. Zhu n

author keywords: EHD printing; stretchable electronics; silver nanowires; PDMS surface modification; UVO treatment; polydopamine coating
topics (OpenAlex): Advanced Sensor and Energy Harvesting Materials; Nanomaterials and Printing Technologies; Electrospun Nanofibers in Biomedical Applications
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Sources: Web Of Science, ORCID, NC State University Libraries
Added: March 15, 2021

2020 article

Facile Approach to Fabricating Stretchable Organic Transistors with Laser-Patterned Ag Nanowire Electrodes

Song, R., Yao, S., Liu, Y., Wang, H., Dong, J., Zhu, Y., & O’Connor, B. T. (2020, November 2). ACS Applied Materials & Interfaces, Vol. 12, pp. 50675–50683.

By: R. Song n, S. Yao n, Y. Liu n, H. Wang n, J. Dong n, Y. Zhu n, B. O’Connor n

Contributors: R. Song n, S. Yao n, Y. Liu n, H. Wang n, J. Dong n, Y. Zhu n, . B.T. O'connor n

author keywords: stretchable electronics; Ag nanowires; laser patterning; organic electronics; organic thin-film transistors
topics (OpenAlex): Advanced Sensor and Energy Harvesting Materials; Tactile and Sensory Interactions; Nanomaterials and Printing Technologies
TL;DR: The ability to pattern highly conductive Ag NW networks using laser ablation to pattern electrodes as well as interconnects provides a simple strategy to produce complex stretchable OTFT-based circuits. (via Semantic Scholar)
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Sources: Web Of Science, NC State University Libraries, ORCID
Added: February 1, 2021

2019 journal article

Nanomaterial‐Enabled Flexible and Stretchable Sensing Systems: Processing, Integration, and Applications

Advanced Materials, 32(15), 1902343.

By: S. Yao n, P. Ren n, R. Song n, Y. Liu n, Q. Huang*, J. Dong n, B. O'Connor n, Y. Zhu n

Contributors: S. Yao n, P. Ren n, R. Song n, Y. Liu n, Q. Huang*, J. Dong n, . B.T. O'Connor n, Y. Zhu n

author keywords: electronic skins; flexible and stretchable systems; flexible hybrid electronics; health and fitness tracking; human-machine interfaces
MeSH headings : Biosensing Techniques / instrumentation; Biosensing Techniques / methods; Blood Pressure; Electrocardiography; Equipment Design; Humans; Information Storage and Retrieval; Nanostructures / chemistry; Skin Physiological Phenomena; Volatile Organic Compounds / analysis; Wearable Electronic Devices
topics (OpenAlex): Advanced Sensor and Energy Harvesting Materials; Tactile and Sensory Interactions; Gas Sensing Nanomaterials and Sensors
TL;DR: An overview of the design and integration strategies and manufacturing techniques for nanomaterial‐enabled flexible and stretchable sensing systems and representative applications in personal health, fitness tracking, electronic skins, artificial nervous systems, and human–machine interactions are provided. (via Semantic Scholar)
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Sources: Web Of Science, Crossref, ORCID, NC State University Libraries
Added: September 23, 2019

2018 article

Impact of Substrate Characteristics on Stretchable Polymer Semiconductor Behavior

Sun, T., Song, R., Balar, N., Sen, P., Kline, R. J., & O’Connor, B. T. (2018, December 28). ACS Applied Materials & Interfaces, Vol. 11, pp. 3280–3289.

By: T. Sun n, R. Song n, N. Balar n, P. Sen n, R. Kline* & B. O’Connor n

author keywords: stretchable electronics; polymer semiconductors; yield strain; deformability; adhesion energy
topics (OpenAlex): Advanced Sensor and Energy Harvesting Materials; Advanced Materials and Mechanics; Conducting polymers and applications
TL;DR: It is found that increasing the near-surface modulus of thePDMS and maintaining the PDMS in tension throughout the cyclic strain process promote plastic deformation over film wrinkling, highlighting the importance of neighboring elastomer characteristics on the ability to achieve stretchable polymer semiconductors. (via Semantic Scholar)
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Sources: Web Of Science, NC State University Libraries
Added: February 18, 2019

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