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2022

[72] Stretchable Sponge Electrodes for Long-Term Recording of High-Quality Electrophysiological Signals
L.-W. Lo, J. Zhao, K. Aono, W. Li, Z. Wen, S. Pizzella, Y. Wang, S. Chakrabartty, C. Wang
Submitted, 2022.

[71] Soft Sponge Sensor for Multimodal Sensing and Distinguishing of Pressure, Strain, and Temperature
L.-W. Lo, J. Zhao, H. Wan, Y. Wang, S. Chakrabartty, C. Wang
ACS Applied Materials & Interfaces, Vol. 14, 9570-9578, 2022.

2021

[70] High-Speed Fabrication of All-Inkjet-Printed Organometallic Halide Perovskite Light-Emitting Diodes on Elastic Substrates
J. Zhao, L.-W. Lo, H. Wan, P. Mao, Z. Yu, C. Wang
Advanced Materials, Vol. 33, 2102095, 2021.

[69] Multimodal Artificial Neurological Sensory-Memory System Based on Flexible Carbon Nanotube Synaptic Transistor
H. Wan, J. Zhao, L.-W. Lo, Y. Cao, N. Sepulveda, C. Wang
ACS Nano, Vol. 15, 14587-14597, 2021.

[68] Inkjet-Printed PEDOT:PSS-based Stretchable Conductor for Wearable Health Monitoring Device Applications
L.-W. Lo, J. Zhao, H. Wan, Y. Wang, S. Chakrabartty, C. Wang
ACS Applied Materials & Interfaces, Vol. 13, 21693-21702, 2021.

2020

[67] Flexible Carbon Nanotube Synaptic Transistor for Neurological Electronic Skin Applications
H. Wan, Y. Cao, L.-W. Lo, J. Zhao, N. Sepulveda, C. Wang
ACS Nano, Vol. 14, 10402–10412, 2020.

[66] Avalanche Photodetectors based on Two-Dimensional Layered Materials
J. Miao, C. Wang
Nano Research, Vol. 14, 1878-1888, 2021.

[65] Inkjet-Printed Soft Resistive Pressure Sensor Patch for Wearable Electronics Applications
L.-W. Lo, H. Shi, H. Wan, Z. Xu, X. Tan, C. Wang
Advanced Materials Technologies, Vol. 5, 1900717, 2020.

2019

[64] Screen-Printed Soft Triboelectric Nanogenerator with Porous PDMS and Stretchable PEDOT:PSS Electrode
H. Wan, Y. Cao, L.-W. Lo, Z. Xu, N. Sepulveda, C. Wang
Journal of Semiconductors, Vol. 40, 112601, 2019.

[63] Radiation Effects in Printed Flexible Single-Wall Carbon Nanotube Thin-Film Transistors
X. Zhao, M. Yu, L. Cai, J. Liu, J. Wang, H. Wan, J. Wang, C. Wang, Y. Fu
AIP Advances, Vol. 9, 105121, 2019.

[62] Screen-Printed Soft Capacitive Sensors for Spatial Mapping of Both Positive and Negative Pressures
H. Shi, M. Al-Rubaiai, C. M. Holbrook, J. Miao, T. Pinto, C. Wang, X. Tan
Advanced Functional Materials, Vol. 29, 1809116, 2019.

[61] Black Phosphorus Electronic and Optoelectronic Devices
J. Miao, L. Zhang, C. Wang
2D Materials, Vol. 6, 032003, 2019.

[60] Physical and Chemical Sensing with Electronic Skin
K. Takei, W. Gao, C. Wang, A. Javey
Proceedings of the IEEE, Vol. 107, 2155–2167, 2019.

[59] A 3D-Printed Stretchable Strain Sensor for Wind Sensing
M. Al-Rubaiai, R. Tsuruta, U. Gandhi, C. Wang, X. Tan
Smart Materials and Structures, Vol. 28, 084001, 2019.

2018

[58] Fully-Printed Flexible Dual-Gate Carbon Nanotube Thin-Film Transistors with Tunable Ambipolar Characteristics for Complementary Logic Circuits
M. Yu, H. Wan, L. Cai, J. Miao, S. Zhang, C. Wang
ACS Nano, Vol. 12, 11572–11578, 2018.

[57] Direct Printing for Additive Patterning of Silver Nanowires for Stretchable Sensor and Display Applications
L. Cai, S. Zhang, Y. Zhang, J. Li, J. Miao, Q. Wang, Z. Yu, C. Wang
Advanced Materials Technologies, Vol. 3, 1700232, 2018.

[56] Single Pixel Black Phosphorus Photodetector for Near-Infrared Imaging
J. Miao, B. Song, Z. Xu, L. Cai, S. Zhang, L. Dong, C. Wang
Small, Vol. 14, 1702082, 2018.

[55] Impact-Activated Programming of Electro-Mechanical Resonators through Ferroelectret NanoGenerator (FENG) and Vanadium Dioxide
Y. Cao, W. Li, J. Figueroa, T. Wang, D. Torres, C. Wang, Z. Wang, N. Sepulveda
Nano Energy, Vol. 43, 278-284, 2018.

2017

[54] Vertically Stacked and Self-Encapsulated van der Waals Heterojunction Diodes Using Two-Dimensional Layered Semiconductors
J. Miao, Z. Xu, Q. Li, A. Bowman, S. Zhang, W. Hu, Z. Zhou, C. Wang
ACS Nano, Vol. 11, 10472–10479, 2017.

[53] Photothermal Effect Induced Negative Photoconductivity and High Responsivity in Flexible Black Phosphorus Transistors
J. Miao, B. Song, Q. Li, L. Cai, S. Zhang, W. Hu, L. Dong, C. Wang
ACS Nano, Vol. 11, 6048–6056, 2017.

[52] Wireless MRI Colonoscopy for Sensitive Imaging of Vascular Walls
X. Zeng, L. Chen, C. Wang, J. Wang, C. Qian
Scientific Reports, Vol. 7, 4228, 2017.

[51] Fully-Printed Silver Nanoparticle Based Strain Gauges with Record High Sensitivity
S. Zhang, L. Cai, W. Li, J. Miao, T. Wang, J. Yeom, N. Sepulveda, C. Wang
Advanced Electronic Materials, Vol. 3, 1700067, 2017.

[50] Stretchable Light-Emitting Diodes with Organometal Halide Perovskite-Polymer Composite Emitters
S. Bade, X. Shan, P. Hoang, J. Li, T. Geske, L. Cai, Q. Pei, C. Wang, Z. Yu
Advanced Materials, Vol. 29, 1607053, 2017.

[49] Air-Stable Humidity Sensor Using Few-Layer Black Phosphorus
J. Miao, L. Cai, S. Zhang, J. Nah, J. Yeom, C. Wang
ACS Applied Materials & Interfaces, Vol. 9, 10019-10026, 2017.

[48] Fully Printed Flexible Carbon Nanotube Photodetector
S. Zhang, L. Cai, T. Wang, J. Miao, N. Sepulveda, C. Wang
Applied Physics Letters, Vol. 110, 123105, 2017.

[47] CNT-based Sensor Arrays for Local Strain Measurements in Soft Pneumatic Bending Actuators
T. Pinto, L. Cai, C. Wang, X. Tan
International Journal of Intelligent Robotics and Applications, Vol. 1, 157-166, 2017.

[46] Nanogenerator-based dual-functional and self-powered loudspeaker/microphone thin patch for flexible electronics
W. Li, D. Torres, R. Diaz, Z. Wang, C. Wang, Z. Wang, N. Sepulveda
Nature Communications, Vol. 8, 15310, 2017.

[45] Maximizing the Performance of Photothermal Actuators by Combining Smart Materials with Supplementary Advantages
T. Wang, D. Torres, F. E. Fernandez, C. Wang, N. Sepulveda
Science Advances, Vol. 3, e1602697, 2017.

[44] Filtration-Guided Assembly for Patterning One-Dimensional Nanostructures
Y. Zhang, C. Wang, J. Yeom
Nanotechnology, Vol. 28, 145302, 2017.

2016

[43] Fully-Printed Stretchable Thin-Film Transistors and Integrated Logic Circuits
L. Cai, S. Zhang, J. Miao, Z. Yu, C. Wang
ACS Nano, Vol. 10, 11459–11468, 2016.

[42] A Flexible and Biocompatible Polypropylene Ferroelectret Nanogenerator (FENG): on the path toward wearable devices powered by human motion
W. Li, D. Torres, T. Wang, C. Wang, N. Sepulveda
Nano Energy, Vol. 30, 649–657, 2016.

[41] Black Phosphorus Schottky Diodes: Channel Length Scaling and Application as Photodetectors
J. Miao, S. Zhang, L. Cai, C. Wang
Advanced Electronic Materials, Vol. 2, 1500346, 2016.

2015

[40] Bolometric-Effect-Based Wavelength-Selective Photodetectors Using Sorted Single Chirality Carbon Nanotubes
S. Zhang, L. Cai, T. Wang, R. Shi, J. Miao, L. Wei, Y. Chen, N. Sepulveda, C. Wang
Scientific Reports, Vol. 5, 17883, 2015.

[39] Ultrashort Channel Length Black Phosphorus Field-Effect Transistors
J. Miao, S. Zhang, L. Cai, M. Scherr, C. Wang
ACS Nano, Vol. 9, 9236–9243, 2015.

[38] Fully-Printed Foldable Integrated Logic Gates with Tunable Performance Using Semiconducting Carbon Nanotubes
L. Cai, S. Zhang, J. Miao, Z. Yu, C. Wang
Advanced Functional Materials, Vol. 25, 5698–5705, 2015.

[37] Carbon Nanotube Flexible and Stretchable Electronics
L. Cai, C. Wang
Nanoscale Research Letters, Vol. 10, Article 320, 2015.

[36] Capacitance-Voltage Characteristics of Thin-Film Transistors Fabricated with Solution-Processed Semiconducting Carbon Nanotube Networks
L. Cai, S. Zhang, J. Miao, Q. Wei, C. Wang
Nanoscale Research Letters, Vol. 10, Article 291, 2015.

[35] Increasing Efficiency, Speed, and Responsivity of Vanadium Dioxide Based Photothermally Driven Actuators Using Single-Wall Carbon Nanotube Thin-Films
T. Wang, D. Torres, F. E. Fernandez, A. J. Green, C. Wang, N. Sepulveda
ACS Nano, Vol. 9, 4371–4378, 2015.

2014

[34] Photoactuators and motors based on carbon nanotubes with selective chirality distributions
X. Zhang, Z. Yu, C. Wang, D. Zarrouk, J.-W. T. Seo, J. C. Cheng, A. D. Buchan, K. Takei, Y. Zhao, J. W. Ager, J. Zhang, M. Hettick, M. C. Hersam, A. P. Pisano, R. S. Fearing, A. Javey
Nature Communications, Vol. 5, 2983, 2014.

2013

[33] Carbon Nanotube Active-Matrix Backplanes for Mechanically Flexible, Visible Light and X-Ray Imagers
T. Takahashi, Z. Yu, K. Chen, D. Kiriya, C. Wang, K. Takei, H. Shiraki, T. Chen, B. Ma, A. Javey
Nano Letters, Vol. 13, 5425–5430, 2013.

[32] Fully-Printed, High Performance Carbon Nanotube Thin-film Transistors on Flexible Substrates
P. H. Lau, K. Takei, C. Wang, Y. Ju, J. Kim, Z. Yu, T. Takahashi, G. Cho, A. Javey
Nano Letters, Vol. 13, 3864–3869, 2013.

[31] Aligned carbon nanotubes: from controlled synthesis to electronic applications
B. Liu, C. Wang, J. Liu, Y. Che, C. Zhou
Nanoscale, Vol. 5, 9483–9502, 2013.

[30] User-interactive electronic-skin for instantaneous pressure visualization
C. Wang, D. Hwang, Z. Yu, K. Takei, J. Park, T. Chen, B. Ma, A. Javey
Nature Materials, Vol. 12, 899–904, 2013.

[29] Short-Channel Transistors Constructed with Solution-Processed Carbon Nanotubes
S.-J. Choi, P. Bennett, K. Takei, C. Wang, C. C. Lo, A. Javey, J. Bokor
ACS Nano, Vol. 7, 798–803, 2013.

[28] Carbon Nanotube Electronics – Moving Forward
C. Wang, K. Takei, T. Takahashi, A. Javey
Chemical Society Reviews, Vol. 42, 2592–2609, 2013.

Before 2013

[27] Chirality-Controlled Synthesis of Single-Wall Carbon Nanotubes Using Vapour-Phase Epitaxy
J. Liu†, C. Wang†, X. Tu, B. Liu, L. Chen, M. Zheng, C. Zhou († Equal contribution)
Nature Communications, Vol. 3, 1199, 2012.

[26] Comparative Study of Solution-Processed Carbon Nanotube Network transistors
S.-J. Choi, C. Wang, C. C. Lo, P. Bennett, A. Javey, J. Bokor
Applied Physics Letters, Vol. 101, 112104, 2012.

[25] Selective Synthesis and Device Applications of Semiconducting Single-Walled Carbon Nanotubes Using Isopropanol as Feedstock
Y. Che†, C. Wang†, J. Liu, B. Liu, X. Lin, J. Parker, C. Beasley, H.-S. P. Wong, C. Zhou († Equal contribution)
ACS Nano, Vol. 6, 7454–7462, 2012.

[24] Rigid / Flexible Transparent Electronics Based on Separated Carbon Nanotube Thin-film Transistors and their Application in Display Electronics
J. Zhang, C. Wang, C. Zhou
ACS Nano, Vol. 6, 7412–7419, 2012.

[23] Self-Aligned T-gate High-Purity Semiconducting Carbon Nanotube RF Transistors Operated in Quasi ballistic Transport and Quantum Capacitance Regime
Y. Che, A. Badmaev, A. Jooyaie, T. Wu, J. Zhang, C. Wang, K. Galatsis, H. A. Enaya, C. Zhou
ACS Nano, Vol. 6, 6936–6943, 2012.

[22] Self-Aligned, Extremely High Frequency III-V Metal-Oxide-Semiconductor Field-Effect Transistors on Rigid and Flexible Substrates
C. Wang, J.-C. Chien, H. Fang, K. Takei, J. Nah, E. Plis, S. Krishna, A. M. Niknejad, A. Javey
Nano Letters, Vol. 12, 4140–4145, 2012.

[21] III-V Complementary Metal-Oxide-Semiconductor Electronics on Si Substrates
J. Nah, H. Fang, C. Wang, K. Takei, M. H. Lee, E. Plis, S. Krishna, A. Javey
Nano Letters, Vol. 12, 3592–3595, 2012.

[20] Self-Aligned Fabrication of Graphene RF Transistors with T-Shaped Gate
A. Badmaev, Y. Che, Z. Li, C. Wang, C. Zhou
ACS Nano, Vol. 6, 3371–3376, 2012.

[19] Extremely Bendable, High-Performance Integrated Circuits Using Semiconducting Carbon Nanotube Networks for Digital, Analog, and Radio-Frequency Applications
C. Wang, J.-C. Chien, K. Takei, T. Takahashi, J. Nah, A. M. Niknejad, A. Javey
Nano Letters, Vol. 12, 1527–1533, 2012.

[18] Fully Printed Separated Carbon Nanotube Thin Film Transistor Circuits and Its Application in Organic Light Emitting Diode Control
P. Chen, Y. Fu, R. Aminirad, C. Wang, J. Zhang, K. Wang, K. Galatsis, C. Zhou
Nano Letters, Vol. 11, 5301–5308, 2011.

[17] Separated Carbon Nanotube Macroelectronics for Active Matrix Organic Light-Emitting Diode Displays
J. Zhang†, Y. Fu†, C. Wang†, P. Chen, Z. Liu, W. Wei, C. Wu, M. Thompson, C. Zhou († Equal contribution)
Nano Letters, Vol. 11, 4852–4858, 2011.

[16] Carbon Nanotube Memory by the Self-Assembly of Silicon Nanocrystals as Charge Storage Nodes
M. Olmedo, C. Wang, K. Ryu, H. Zhou, J. Ren, N. Zhan, C. Zhou, J. Liu
ACS Nano, Vol. 5, 7972–7977, 2011.

[15] Radio Frequency and Linearity Performance of Transistors Using High-Purity Semiconducting Carbon Nanotubes
C. Wang, A. Badmaev, A. Jooyaie, M. Bao, K. L. Wang, K. Galatsis, C. Zhou
ACS Nano, Vol. 5, 4169–4176, 2011.

[14] Air-Stable Conversion of Separated Carbon Nanotube Thin-Film Transistors from P-type to N-type using Atomic Layer Deposition of High-κ Oxide and Its Application in CMOS Digital Circuits
J. Zhang†, C. Wang†, Y. Fu, Y. Che, C. Zhou († Equal contribution)
ACS Nano, Vol. 5, 3284–3292, 2011.

[13] Metal Contact Engineering and Registration-Free Fabrication of CMOS Integrated Circuits Using Aligned Carbon Nanotubes
C. Wang, K. Ryu, A. Badmaev, J. Zhang, C. Zhou
ACS Nano, Vol. 5, 1147–1153, 2011.

[12] Macroelectronic Integrated Circuits Using High-Performance Separated Carbon Nanotube Thin-Film Transistors
C. Wang, J. Zhang, C. Zhou
ACS Nano, Vol. 4, 7123–7132, 2010.

[11] Synthesis and Device Applications of High-Density Aligned Carbon Nanotubes Using Low-Pressure Chemical Vapor Deposition and Stacked Multiple Transfer
C. Wang, K. Ryu, L. Gomez, A. Badmaev, J. Zhang, X. Lin, Y. Che, C. Zhou
Nano Research, Vol. 3, 831–842, 2010.

[10] 2,4,6-Trinitrotoluene (TNT) Chemical Sensing Based on Aligned Single-Walled Carbon Nanotubes and ZnO Nanowires
P. Chen, S. Sukcharoenchoke, K. Ryu, L. Gomez, A. Badmaev, C. Wang, C. Zhou
Advanced Materials, Vol. 22, 1900–1904, 2010.

[9] Comparison of Graphene Growth on Single-Crystalline and Polycrystalline Ni by Chemical Vapor Deposition
Y. Zhang, L. Gomez, F. Ishikawa, A. Madaria, K. Ryu, C. Wang, A. Badmaev, C. Zhou
Journal of Physical Chemistry Letters, Vol. 1, 3101–3107, 2010.

[8] Wafer-Scale Fabrication of Separated Carbon Nanotube Thin-Film Transistors for Display Applications
C. Wang, J. Zhang, K. Ryu, A. Badmaev, L. Gomez, C. Zhou
Nano Letters, Vol. 9, 4285–4291, 2009.

[7] CMOS-analogous wafer-scale nanotube-on-insulator approach for submicron devices and integrated circuits using aligned nanotubes
K. Ryu†, A. Badmaev†, C. Wang†, A. Lin, N. Patil, L. Gomez, A. Kumar, S. Mitra, H.-S. P. Wong, C. Zhou († Equal contribution)
Nano Letters, Vol. 9, 189–197, 2009.

[6] Hysteresis-free Carbon Nanotube Field Effect Transistors without Any Post-treatment
C. Wang, Y. Fu, A. Guo, J. Liu, L. Guan, Z. Shi, R. Huang, X. Zhang
Journal of Nanoscience and Nanotechnology, Vol. 9, 1004–1007, 2009.

[5] Synthesis, Characterization and Properties of C60 Nanocrystals, Nanowires and Hierarchical Nanostructures
J. Liu, Y. Fu, A. Guo, C. Wang, Z. Shi, Z. Gu, R. Huang, X. Zhang
Journal of Nanoscience and Nanotechnology, Vol. 9, 1555–1557, 2009.

[4] Device Study, Chemical Doping and Logic Circuits Based on Transferred Aligned Single-Walled Carbon Nanotubes
C. Wang, K. Ryu, A. Badmaev, N. Patil, A. Lin, S. Mitra, H.-S. P. Wong, C. Zhou
Applied Physics Letters, Vol. 93, 033101, 2008.

[3] Programming/Erasing Characteristics of Hysteresis-Based Nonvolatile Memory Devices of Single-Wall Carbon Nanotubes
A. Guo, Y. Fu, L. Guan, J. Liu, C. Wang, F. Zhou, Z. Shi, Z. Gu, R. Huang, X. Zhang
Current Nanoscience, Vol. 4, 251–255, 2008.

[2] Growth of Gold Fractal Nanostructures by Electrochemical Deposition in Organic Electrolytes: Morphologies and Their Transitions
J. Liu, Y. Fu, A. Guo, C. Wang, R. Huang, X. Zhang
J. Phys. Chem. C, Vol. 112, 4242–4247, 2008.

[1] Two-bit memory devices based on single-wall carbon nanotubes: demonstration and mechanism
A. Guo, Y. Fu, C. Wang, L. Guan, J. Liu, Z. Shi, Z. Gu, R. Huang, X. Zhang
Nanotechnology, Vol. 18, 125206, 2007.