Conformable Decoders

Decoding Tissue Biomechanics using Conformable Electronic Devices

Yoon, H., Kim, J., Sadat, D., Barrett, A., Ko, S. H., Dagdeviren, C.^†, Nature Review Materials, 2024.

Implantable Piezoelectric Ultrasound Stimulator (ImPULS) for Selective Deep Brain Activation

Hou, J.^*, Nayeem, M. O. G.^*, Caplan, K. A., Ruesch, E. A., Caban-Murillo, A., Criado-Hidalgo, E., Williams, B., Dagdeviren, H.E., White, J. A., Shapiro, M. G., Wang, F., Ramirez, S., Dagdeviren, C.^†, Nature Communications, 2024.

Design Approaches and Electromechanical Modeling of Conformable Piezoelectric-based Ultrasound Systems

Amiri, N.^*, Shah, A.^*, Bhayadia, A. K., Yu, C., Karami, A. M., Dagdeviren, C.^†, Advanced Sensor Research, 2024.

A Dynamic Ultrasound Phantom with Tissue-Mimicking Mechanical and Acoustic Properties

Fernandez, S.^*, Kim, J.^*, Sadat, D., Marcus, C., Suh, E., McIntosh, R., Shah, A., Dagdeviren, C.^†, Advanced Science, 10.1002/advs.202400271, 2024.

Chapter 13: Bioceramics for Knee and Hip Implants

Shuvo, I.I., Khandakar, L.K.M., Kim, J.-H., Fernandez, S.V., Dagdeviren, C., Handbook of Advanced Bioceramics: Processing, Properties and Applications, 2023. [Invited Book Chapter]

An Emerging Era: Conformable Ultrasound Electronics

Zhang, L., Du, W., Kim, J.-H., Yu, C.-C., Dagdeviren, C.^†, Advanced Materials, 2023.

A Conformable Phased-Array Ultrasound Patch for Bladder Volume Monitoring

Zhang, L.^*, Marcus, C.^*, Lin, D.^*, Mejorado, D., Schoen Jr, S. J., Pierce, T. T., Kumar, V., Fernandez, S. V., Hunt, D., Li, Q., Shuvo, I., Sadat, D., Du, W.^*, Edenbaum, H., Jin, L., Liu, W., Li, F., Eldar, Y., Chandrakasan, A. P., Samir, A., Dagdeviren, C.^†, Nature Electronics, 2023.

Conformable Ultrasound Breast Patch for Deep Tissue Scanning and Imaging

Du, W.^*, Zhang, L.^*, Suh, E.^*, Lin, D.^*, Marcus, C., Ozkan, L., Ahuja, A., Fernandez, S., Shuvo, I., Sadat, D., Liu, W., Li, F., Chandrakasan, A., Ozmen, T., Dagdeviren, C.^†, Science Advances, 9, eadh5325, 2023.

Conductive Hydrogels for Bioenergy Harvesting and Self-Powered Application

Zhang, C.^*, Nayeem, M. O. G.^*, Wang, Z.^*, Pu, X., Dagdeviren, C.^†, Wang, Z.L.^†, Zhang, X.^†, Liu, R.^†, Progress in Materials Science, 138, 101156, 2023.

Conformable Ultrasound Face Patch for Cavitation Enhanced Transdermal Cosmeceutical Delivery

Yu, C., Shah, A., Amiri, N., Marcus, C., Nayeem, M.O.G., Karami, A.M., Dagdeviren, C.^†, Advanced Materials, 2023. [Invited Paper for Rising Stars Special Series]

Technology Roadmap for Flexible Sensors

Luo, Y., Abidian, M.R., Ahn, J.-H., Akinwande, D., Andrews, A.M., Antonietti, M., Bao, Z., Berggren, M., Berkey, C.A., Bettinger, C.J., Chen, J., Chen, P., Cheng, W., Cheng, X., Choi, S.-J., Chortos, A., Dagdeviren, C., Dauskardt, R.H., Di, C.-a., Dickey, M.D., Duan, X., Facchetti, A., Fan, Z., Fang, Y., Feng, J., Feng, X., Gao, H., Gao, W., Gong, X., Guo, C.F., Guo, X., Hartel, M.C., He, Z., Ho, J.S., Hu, Y., Huang, Q., Huang, Y., Huo, F., Hussain, M.M., Javey, A., Jeong, U., Jiang, C., Jiang, X., Kang, J., Karnaushenko, D., Khademhosseini, A., Kim, D.-H., Kim, I.-D., Kireev, D., Kong, L., Lee, C., Lee, N.-E., Lee, P.S., Lee, T.-W., Li, F., Li, J., Liang, C., Lim, C.T., Lin, Y., Lipomi, D.J., Liu, J., Liu, K., Liu, N., Liu, R., Liu, Y., Liu, Y., Liu, Z., Liu, Z., Loh, X.J., Lu, N., Lv, Z., Magdassi, S., Malliaras, G.G., Matsuhisa, N., Nathan, A., Niu, S., Pan, J., Pang, C., Pei, Q., Peng, H., Qi, D., Ren, H., Rogers, J.A., Rowe, A., Schmidt, O.G., Sekitani, T., Seo, D.-G., Shen, G., Sheng, X., Shi, Q., Someya, T., Song, Y., Stavrinidou, E., Su, M., Sun, X., Takei, K., Tao, X.-M., Tee, B.C.K., Thean, A.V.-Y., Trung, T.Q., Wan, C., Wang, H., Wang, J., Wang, M., Wang, S., Wang, T., Wang, Z.L., Weiss, P.S., Wen, H., Xu, S., Xu, T., Yan, H., Yan, X., Yang, H., Yang, L., Yang, S., Yin, L., Yu, C., Yu, G., Yu, J., Yu, S.-H., Yu, X., Zamburg, E., Zhang, H., Zhang, X., Zhang, X., Zhang, X., Zhang, Y., Zhang, Y., Zhao, S., Zhao, X., Zheng, Y., Zheng, Y.-Q., Zheng, Z., Zhou, T., Zhu, B., Zhu, M., Zhu, R., Zhu, Y., Zhu, Y., Zou, G., Chen, X. ACS Nano, 2023, DOI: 10.1021/acsnano.2c12606

A Conformable Sensory Face Mask for Decoding Biological and Environmental Signals

Kim, J., Marcus, C., Ono, R., Sadat, D., Mirzazadeh, A., Fernandez, S.V., Zheng, S., Durak, T., Dagdeviren, C.^†, Nature Electronics, 5, 794–807, 2022. [Cover Image]

A New Model Based on the in-plane Deformation for the Conformable Piezoelectric Systems for Characterization of Soft Tissue Modulus

Zhao, H., Dagdeviren, C., Liu, G., Cao, P., Wang, J., Sha, B., Wang, G., Cui, J., Su, Y.^†, Extreme Mechanics Letters, 55, 101801, 2022.

Electronic Textile Sensors for Decoding Vital Body Signals: State-of-the-art Review on Characterizations and Recommendations

Shuvo, I.I., Shah, A., Dagdeviren, C.^†, Advanced Intelligent Systems, 4, 2100223, 2022.

On-Body Piezoelectric Energy Harvesters through Innovative Designs and Conformable Structures

Fernandez, S.V., Cai, F., Chen, S., Suh, E., Tiepelt, J., McIntosh, R., Marcus, C., Acosta, D., Mejorado, D., Dagdeviren, C.^†, ACS Biomaterials Science & Engineering, 2021.

Ubiquitous Conformable Systems for Imperceptible Computing

Fernandez, S. V., Sadat, D., Tasnim, F., Acosta, D., Schwendeman, L., Shahsavari, S., Dagdeviren, C.^†, Foresight, 24, 1, 75-98, 2021.

Experimentally Verified Finite Element Modeling and Analysis of a Conformable Piezoelectric Sensor

Amiri, N., Tasnim, F., Tavakkoli Anbarani, M., Dagdeviren, C.^†, Karami, A.^†, Smart Materials and Structures, 30, 085017, 2021.

Decoding of Facial Strains via Conformable Piezoelectric Interfaces

Sun, T.^*, Tasnim, F.^*, McIntosh, R.T., Amiri, N., Solav, D., Anbarani, M.T., Sadat, D., Zhang, L., Gu, L., Karami, M.A., Dagdeviren, C.^†, Nature Biomedical Engineering, 4, 954–972, 2020.

Simultaneous Recording, Stimulation, and Marking of Brain Microstructures

Ramadi, K.^*, Dagdeviren, C.^*, Bhagchandani, P., Nunez-Lopez, C., Kim, M. J., Langer, R., Graybiel, A., Cima, M., Journal of Neural Engineering, (17)4, 044001, 2020.

Research Resiliency Through Lean Labs

Dagdeviren, C.^†, Durak, T., Sadat, D., Advanced Intelligent Systems, 2000074, 2, 2020.

A Tailored, Electronic Textile Conformable Suit for Large-Scale Spatiotemporal Physiological Sensing in vivo

Wicaksono, I., Tucker, C., Sun, T., Guerrero, C., Liu, C., Woo, W., Pence, E., Dagdeviren, C.^†, Nature Flexible Electronics, 4(1), 5, 2020.

Chapter 18: Flexible and Stretchable Devices for Human-Machine Interfaces

Wicaksono, I., Dagdeviren, C., Handbook of Flexible and Stretchable Electronics, CRC Press, Taylor & Francis Group, 2019.

The Future of Neuroimplantable Devices: A Materials Science and Regulatory Perspective

Obidin, N., Tasnim, F., Dagdeviren, C.^†, Advanced Materials, 1901482, 2019. [Invited Review Paper]

Recent Progress in Electrochemical pH-Sensing Materials and Configurations for Biomedical Applications

Ghoneim, M. T., Nguyen, A., Dereje, N., Huang, J., Moore, G. C., Murzynowski, P. J., Dagdeviren, C.^†, ACS Chemical Reviews, 119(8), 5248-5297, 2019. [Invited Review Paper]

Towards Personalized Medicine: The Evolution of Imperceptible Health-Care Technologies

Tasnim, F., Sadraei, A., Datta, B., Khan, M., Choi, K. Y., Sahasrabudhe, A., Alfonso Vega Gálvez, T., Wicaksono, I., Rosello, O., Nunez-Lopez, C., Dagdeviren, C.^†, Foresight, 20(6), 589-601, 2018.

A Protocol to Characterize pH Sensing Materials and Systems

Ghoneim, M. T., Sadraei, A., Souza, P., Moore, G. C., Bazant, M. Z., Dagdeviren, C.^†, Small Methods, 3(2), 1800265, 2018. [Cover Image]

Focal, Remote-controlled, Chronic Chemical Modulation of Brain Microstructures

Ramadi, K., Dagdeviren, C., Spencer, K., Joe, P., Cotler, M., Rousseau, E., Lopez, C., Graybiel, A., Langer, R., Cima, M., Proceedings of the National Academy of Sciences of the United States of America, 115(28), 7254-7259, 2018.

PerForm: Deformable Interface for the Exploration of Sound through Shapes

Wicaksono, I., Rozendo, C., Ye, R., Trapp, J., Bove Jr., M. V., Dagdeviren, C., Ishii, H., Proceedings of ACM CHI Conference on Human Factors in Computing Systems, Montreal, Canada, 2018.

Miniaturized Neural System for Chronic, Local Intracerebral Drug Delivery

Dagdeviren, C., Ramadi, K., Joe, P., Spencer, K., Schwerdt, H., Shimazu, H., Delcasso, S., Amemori, K., Lopez, C., Graybiel, A. M., Cima, M. J., Langer, R., Science Translational Medicine, 10(425), 2018.

Flexible Piezoelectric Devices for Gastrointestinal Motility Sensing

Dagdeviren, C.^†, Javid, F., Joe, P., Erlach, T., Bensel, T., Wei, Z., Saxton, S., Cleveland, C., Booth, L., McDonnell, S., Collins, J., Hayward, A., Langer, R., Traverso, G.^†, Nature Biomedical Engineering, 1(10), 807-817, 2017.

Energy Harvesting from the Animal/Human Body for Self-Powered Electronics

Dagdeviren, C.^*,†, Li, Z., Wang, Z.L.^*,†, Annual Review of Biomedical Engineering, 19, 85-108, 2017. [Invited Review Paper]

The Universal and Easy-to-Use Standard of Voltage Measurement for Quantifying the Performance of Piezoelectric Devices

Su, Y.^†, Li, S., Huan, Y., Li, R., Zhang, Z., Joe, P., Dagdeviren, C.^†, Extreme Mechanics Letter, 15, 10-16, 2017.

The Future of Bionic Dynamos

Dagdeviren, C., Science, 354(6316), 1109, 2016.

Computational Models for the Determination of Depth-Dependent Mechanical Properties of Skin with a Soft, Flexible Measurement Device

Yuan, J.^*, Dagdeviren, C.^*, Shi, Y., Ma, Y., Feng, X., Rogers, J. A., Huang, Y., Proceedings of the Royal Society A – Mathematical, Physical and Engineering Sciences , 472: 20160225, 2016.

Shear Piezoelectricity in Poly(vinylidenefluoride-co-trifluoroethylene): Full Piezotensor Coefficients by Molecular Modeling, Biaxial Transverse Response, and Use in Suspended Flexible Nanostructures

Persano, L., Catellani, A., Dagdeviren, C., Ma, Y., Advanced Materials, 28(35), 7633-7639, 2016.

Recent Progress in Flexible and Stretchable Piezoelectric Devices for Mechanical Energy Harvesting, Sensing and Actuation

Dagdeviren, C., Joe, P., Tuzman, O. L., Park, K., Lee, K. J., Huang, Y., Rogers, J. A., Extreme Mechanics Letter, 9(1), 269-281, 2016.

Measured Output Voltages of Piezoelectric Devices Depend on the Resistance of Voltmeter

Su, Y.^†, Dagdeviren, C.^†, Li, R., Advanced Functional Materials, 25(33), 5320–5325, 2015.

Splitting of Neutral Mechanical Plane of Conformal, Multilayer Piezoelectric Mechanical Energy Harvester

Su, Y.^† , Li, S., Li, R., Dagdeviren, C.^† , Applied Physics Letter, 107(4), 041905, 2015.

An Analytic Model for Skin Modulus Measurement via Conformal Piezoelectric Systems

Shi, Y., Dagdeviren, C., Gao, C. F., Rogers, J. A., Huang, Y., Journal of Applied Mechanics (ASME Transactions), 82(9), 091007-091014, 2015.

Conformal Piezoelectric Systems for Clinical and Experimental Characterization of Soft Tissue Biomechanics

Dagdeviren, C. Shi, Y., Joe, P., Ghaffari, R., Balooch, G., Usgaonkar, K., Gur, O., Tran, P. L., Crosby, J. G., Meyer, M., Su, Y., Webb, R. C., Tedesco, A. S., Slepian, M. J., Huang, Y., Rogers, J. A., Nature Materials, 14(7), 728-736, 2015.

Active Polymeric Composite Membranes for Localized Actuation and Sensing in Microtransfer Printing

Ahmad, N., Dagdeviren, C., Rogers, J. A., Ferreira, P., IEEE Journal of Microelectromechanical Systems, 24(4), 1016-1028, 2015.

Catheter-Based Systems with Integrated Stretchable Sensors and Conductors in Cardiac Electrophysiology

Lee, S. P., Klinker, L., Ptaszek, L., Work, J., Liu, C., Quivara, F., Webb, C., Dagdeviren, C., Wright, J. A., Ruskin, J. N., Slepian, M., Huang, Y., Mansour, M., Rogers, J. A., Ghaffari, R., Proceedings of the IEEE, 103(4), 682-689, 2015. [Invited Review Paper]

Cooperativity in The Enhanced Piezoelectric Response of Polymer Nanowires

Persano, L.^*, Dagdeviren, C.^*, Maruccio, C.^*, Lorenzis, L. D., Pisignano, D., Advanced Materials, 26(45), 7574-7580, 2014. [Cover Image]

Conformable Amplified Lead Zirconate Titanate Sensors with Enhanced Piezoelectric Response for Cutaneous Pressure Monitoring

Dagdeviren, C.^*, Su, Y.^*, Joe, P., Yona, R., Liu, Y., Kim, Y. S., Damadoran, A. R., Huang, Y. A., Xia, J., Martin, L. W., Huang, Y., Rogers, J. A., Nature Communications, 5, 4496, 2014.

Thin Film Receiver Materials for Deterministic Assembly by Transfer Printing

Kim, T. I., Kim, M. J., Jung, Y. H., Jang, H., Dagdeviren, C., Pao, H. A., Cho, S. J., Carlson, A., Yu, K. J., Ameen, A., Chung, H. J., Jin, S. H., Ma, Z., Rogers, J. A., Chemistry of Materials, 26(11), 3502–3507, 2014. [Cover Image]

Conformal Piezoelectric Energy Harvesting and Storage From Motions of the Heart, Lung and Diaphragm

Dagdeviren, C.^*, Yang, B. D.^*, Su, Y.^*, Tran, P. L., Joe, P., Anderson, E., Xia, J., Doraiswamy, V., Dehdashti, B., Poston, R., Khalpey, Z., Ghaffari, R., Huang, Y., Slepian, M. J., Rogers, J. A., Proceedings of the National Academy of Sciences of the United States of America, 111(5), 1927-1932, 2014.

Transient, Biocompatible Electronics and Energy Harvesters Based on ZnO

Dagdeviren, C.^*, Hwang, S. W.^*, Su, Y., Kim, S., Cheng, H., Gur, O., Haney, R., Huang, Y., Rogers, J. A., Small, 9(20), 3398–3404, 2013.

High Performance, Flexible Piezoelectric Devices Based on Aligned Arrays of Nanofibers of Poly(vinylidenefluoride-co-trifluoroethylene)

Persano, L.^*, Dagdeviren, C.^*, Su, Y., Zhang, Y., Girardo, S., Pisignano, D., Huang, Y., Rogers, J. A., Nature Communications, 4, 1633, 2013.

Stretchable Batteries with Self-Similar Serpentine Interconnects and Integrated Wireless Recharging Systems

Xu, S., Zhang, Y., Cho, J., Lee, J., Huang, X., Jia, L., Fan, J. A., Su, Y., Su, J., Zhang, H., Cheng, H., Lu, B., Yu, C., Chuang, C., Kim, T. I., Song, T., Shigeta, K., Kang, S., Dagdeviren, C., Petrov, I., Braun, P. V., Huang, Y., Paik, U., Rogers, J. A., Nature Communications, 4, 1543, 2013.

No Publications

Stretchable Ferroelectric Nanoribbons with Wavy Configurations on Elastomeric Substrates

Feng, X., Yang, B. D., Liu, Y., Wang, Y., Dagdeviren, C., Liu, Z., Carlson, A., Li, J., Huang, Y., Rogers, J. A., ACS Nano, 5(4), 3326–3332, 2011.

Dielectric Behavior Characterization of a Fibrous- ZnO/PVDF Nanocomposite

Dagdeviren, C., Papila, M., Polymer Composites, 31(6), 1003-1010, 2010.

Processing Conditions and Aging Effect on the Morphology of PZT Electrospun Nanofibers, and Dielectric Properties of the Resulting 3-3 PZT/Polymer Composite

Alkoy, E. M., Dagdeviren, C., Papila, M., Journal of American Ceramic Society, 92(11), 2566-2570, 2009.

Pb(Zr,Ti)O₃ Nanofibers Produced by Electrospinning Process

Alkoy, E. M., Dagdeviren, C., Papila, M., Materials Research Society Proceedings, 1129 V07-08, 2009.

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^† Corresponding author, ^* Equal contribution