Manuscripts

[1] T. Tat, J. Xu, X. Xiao, X. Zhao, G. Chen, J. Yin, J. Chen. “A Soft Magnetoelastic Ball for Self-powered Parkinson’s Disease Diagnosis”, Cell Biomaterials (submitted).

[2] T. Tat, G. Chen, S. Andalib, J. Xu, X. Zhao, Y. Fang, X. Xiao, J. Chen. “Diagnosing Parkinson’s Disease through Behavioral Biometrics of Keystroke Dynamics”, Science Advances (accepted).

[3] G. Chen, T. Tat,…,J. Chen. “Neural Network Assisted Personalized Handwriting Analysis for Parkinson’s Disease Diagnostics”, Science Translational Medicine (submitted). 

[4] Y. Zhou, G. Chen, X. Zhao, T. Tat, Z. Duan, J. Chen. “Theory of giant magnetoelastic effect in soft systems”, Science Advances 11, eads0071(2025)

[5] T. Tat, J. Xu, J. Chen. “Protocol for Preparation of a Textile Magnetoelastic Generator Patch for Personalized Muscle Physiotherapy”, STAR Protocol 5, 103289 (2024).

[6] X. Wan, T. Tat, Y. Zhou, X. Zhao, J. Chen. “Building bioelectronic fibres with a light touch” Nature Electronics (2024).

[7] X. Zhao, Y. Zhou, Y. Song, J. Xu, J. Li, T. Tat, G. Chen, S. Li, J. Chen. “Permanent fluidic magnets for liquid bioelectronics", Nature Materials 23, 703–710 (2024).

[8] J. Yin, S. Wang, T. Tat, and J. Chen. “Motion artefact management for soft bioelectronics”, Nature Reviews Bioengineering 2, 541–558 (2024). 

[9] J. Yin, V. Kashyap, S. Wang, X. Xiao, T. Tat, J Chen. “Self-powered eye-computer interaction via a triboelectric nanogenerator”, Device 2, 100252 (2024).

[10] Y. Zhou, X. Zhao, J. Xu, G. Chen, T. Tat, J. Li, J. Chen. “A multimodal magnetoelastic artificial skin for underwater haptic sensing”, Science Advances 10, eadj8567 (2024).

[11] T. Tat, X. Zhao, J. Chen. “Leveraging fluidic programming for pneumatic haptic textiles”, Device 1, 100094 (2023).

[12] J. Xu*, T. Tat*, J. Yin, D. Ngo, X. Zhao, X. Wan, Z. Che, K. Chen, L. Harris, J. Chen. “A textile magnetoelastic patch for self-powered personalized muscle physiotherapy”, Matter 6, 2235-2247 (2023). * Co-first author.

[13] S Zhang,..,T. Tat,…, S.C. Tan. “In situ grown silver–polymer framework with coordination complexes for functional artificial tissues”, Advanced Materials 35, 2207916 (2023).

[14] V. Pecunia,...,T. Tat,...,A.P. Joshi. “Roadmap on Energy Harvesting Materials”, Journal of Physics: Materials.

[15] J. Xu*, T. Tat*, X. Zhao, X. Xiao,1 Y. Zhou, J. Yin, K. Chen, J. Chen. “Spherical magnetoelastic generator for multidirectional vibration energy harvesting”, ACS Nano 17, 3865–3872 (2023). * Co-first author.

[16] A. Libanori, J. Soto, J. Xu, Y. Song, J. Zarubova, T. Tat, X. Xiao, S.Z. Yue, S.J. Jonas, S. Li, J. Chen. “Self-Powered Programming of Fibroblasts into Neurons via a Scalable Magnetoelastic Generator Array”, Advanced Materials 35, 2206933

[17] G. Chen, S. Shen, T. Tat, X. Zhao, Y. Zhou, Y. Fang, J. Chen. “Wearable respiratory sensors for COVID-19 monitoring”, VIEW, 20220024 (2022). 

[18] I.W. Ock, X. Zhao, T. Tat, J. Xu, J. Chen. “Harvesting Hydropower via a Magnetoelastic Generator for Sustainable Water Splitting”, ACS Nano 16, 16816–16823 (2022). 

[19] T. Tat, G. Chen, X. Zhao, Y. Zhou, J. Chen. “A Smart Textiles for Healthcare and Sustainability”, ACS Nano 19, 13301-13313 (2022). 

[20] X. Zhao, A. Nashalian, I.W. Ock, S. Popoli, J. Xu, J. Yin, T. Tat, A. Libanori, G. Chen, Y. Zhou, J. Chen. “A Soft Magnetoelastic Generator for Wind-Energy Harvesting”, Advanced Materials 34, 2204238 (2022). 

[21] K. Meng, X. Xiao, Z. Liu, S. Shen, T. Tat, Z. Wang, C. Lu, W. Ding, X. He, Yang, J. Chen. “Kirigami-Inspired Pressure Sensors for Wearable Dynamic Cardiovascular Monitoring”, Advanced Materials 34, 2202478 (2022). 

[22] J. Xu*, T. Tat*, X. Zhao, Y. Zhou, D. Ngo, X. Xiao, J. Chen. “A programmable magnetoelastic sensor array for self-powered human–machine interface”, Applied Physics Reviews 9, 031404 (2022). * Co-first author.

• This work was reported by over 10 media platforms, including [News Wise] [ScienceDaily] [AZO Sensors]

[23] X. Zhao, G. Chen, Y. Zhou, A. Nashalian, J. Xu, T. Tat, Y. Song, A. Libanori, S. Xu, S. Li, J. Chen. "Giant Magnetoelastic Effect Enabled Stretchable Sensor for Self-Powered Biomonitoring", ACS Nano, 16, 4, 6013–6022 (2022).

[24] G. Chen, X. Xiao, X. Zhao, T. Tat, M. Bick, J. Chen. “Electronic Textiles for Wearable Point-of-Care Systems”, Chemical Reviews, 122, 3, 3259–3291 (2022).

[25] M. A. Parvez Mahmud*, T. Tat*, X. Xiao, P. Adhikary, J. Chen. “Advances in 4D-printed physiological monitoring sensors”, Exploration, 1, 20210033 (2021). * Co-first author.

[26] G. Chen, Y. Zhou, Y. Fang, X. Zhao, S. Shen, T. Tat, A. Nashalian, J. Chen. “Wearable Ultrahigh Current Power Source Based on Giant Magnetoelastic Effect in Soft Elastomer System”, ACS Nano, 15, 12, 20582–20589 (2021).

[27] X. Zhao, Y. Zhou, J. Xu, G. Chen, Y. Fang, T. Tat, X. Xiao, Y. Song, S. Li, J. Chen. “Soft fibers with magnetoelasticity for wearable electronics”, Nature Communications, 12, 6755 (2021). 

[28] G. Chen, X. Zhao, S. Andalib, J. Xu, Y. Zhou, T. Tat, K. Lin, J. Chen. “Discovering giant magnetoelasticity in soft matter for electronic textiles”, Matter,4, 1-16 (2021).

[29] W. Deng, Y. Zhou, T. Tat, S. Xu, H. Jin, W. Li, F. Chun, C. Yan, W. Yang, J. Chen. “A Perovskite-based Photodetector with Enhanced Light Absorption, Heat Dissipation, and Humidity Stability”, Advanced Photonics Research, 2, 2100123 (2021). 

[30] G. Conta*, A. Libanori*, T. Tat, J. Chen. “Triboelectric Nanogenerators for Therapeutic Electrical Stimulation”, Advanced Materials, 33, 2007502 (2021).

[31] X. Li, T. Tat, J. Chen. “Triboelectric Nanogenerators for Self-Powered Drug Delivery”, Trends in Chemistry, 3, 765-778 (2021).

[32] Y. Fang, X. Zhao, G. Chen, T. Tat, J. Chen. “Smart polyethylene textiles for radiative and evaporative cooling”, Joule, 2021, 5, 752-754 (2021).

[33] Y. Fang, X. Zhao, T. Tat, X. Xiao, G. Chen, J. Xu, J. Chen. “All-in-one conformal epidermal patch for multimodal biosensing”, Matter, 4, 1102-1105 (2021).

[34] G. Chen, Y. Fang, X. Zhao, T. Tat, J. Chen. “Textiles for learning tactile interactions”, Nature Electronics, 4, 175-176 (2021).

[35] X. Yang, T. Tat, A. Libanori, J. Cheng, X. Xuan, N. Liu, X. Yang, J. Zhou, A. Nashalian, J. Chen. “Single-atom catalysts with bimetallic centers for high-performance electrochemical CO2 reduction”, Materials Today, 45, 54-61 (2021).

[36] T. Tat, A. Libanori, C. Au, A. Yau, J. Chen. “Advances in Triboelectric Nanogenerators for Biomedical Sensing”, Biosensors and Bioelectronics, 171, 112714 (2021).

[37] Z. Zhou, L. Weng, T. Tat, A. Libanori, Z. Lin,  L. Ge, J. Yang, J. Chen. “A Smart Insole for Robust Wearable Biomechanical Energy Harvesting in Harsh Environments”, ACS Nano, 14, 14126-14133 (2020).

[38] B. Alouidor, R.E. Sweeney, T. Tat, R.K. Wong, J.Y. Yoon. “Microfluidic Point-of-care Ecarin Based Clotting and Chromogenic Assays for Monitoring Direct Thrombin Inhibitor Therapy”, Journal of ExtraCorporeal Technology, 5, 29-37 (2019).

[39] K.E. McCracken, T. Tat, V. Paz, J.Y. Yoon. “Smartphone-based Fluorescence Detection of Bisphenol A from Water Samples”, RSC Advances, 7, 9237 – 9243 (2017).

Patent Application

[1] D'Apuzzo, F., Tat, T., Senqupta, R. N., Barcelo, S., & Rogacs, A. (2020). Depositing microdots with analytes on analysis chips. International Patent Application No. PCT/US2018/055489.

Book Chapter

[1] T. Tat, K. Chen, A. Nashalian, J. Chen. “Physical Wearable Sensors”. Chapter 7. Wearable Physical, Chemical and Biological Sensors, Elsevier, ISBN: 9780128216613 (2021).

Conference Abstracts

[1] T. Tat, J. Xu, X. Zhao, Y. Zhou, D. Ngo, X. Xiao, J. Chen. “A programmable magnetoelastic sensor array for self-powered human–machine interface”. National Defense Science and Engineering Graduate Fellowship Conference 2022, Boston, MA. 

[2] T. Tat, B. Alouidor, R.E. Sweeney, R.K. Wong, J.Y. Yoon. “Microfluidic Point-of-care Ecarin Based Assay for Monitoring Direct Thrombin Inhibitor Therapy”. Oral Presentation. AmSECT, Nashville, TN, March 2019.

[3] T. Tat, F. D’Apuzzo, R. Sengupta. “Quality Control for HP Chemical Sensors”. HP Intern Presentations, Palo Alto, CA 2018.

[4] T. Tat, R. Bartel, M. So, K.L. Sweazea, R.J. Gonzales. “Doxorubicin Temporally Modulates Cyclooxygenase-2 Levels in Male and Female Human Vascular Smooth Muscle Cells.” Abstract Number: 700.6. Federation of American Societies for Experimental Biology 2018, 32:1.

[5] T. Tat, R. Bartel, M. So, K.L. Sweazea, R.J. Gonzales. “Doxorubicin temporally modulates cyclooxygenase-2 levels in human vascular smooth muscle cells”. Experimental Biology 2018, San Diego, CA.

[6] T. Tat, R. Bartel, M. So, K.L. Sweazea, R.J. Gonzales. “Doxorubicin temporally modulates cyclooxygenase-2 levels in human vascular smooth muscle cells”. Undergraduate Biology Research Program 2018, Tucson, AZ.

[7] K.E. McCracken, T. Tat, V. Paz, K.A. Reynolds, J.Y. Yoon. “Immunoagglutinated particle rheology sensing on a microfluidic paper-based analytical device for pathogen detection”. American Society of Agricultural and Biological Engineers 2017, Spokane, WA.

[8] K.E. McCracken, T. Tat, V. Paz, J.Y. Yoon. “Smartphone-based Fluorescence Detection of Bisphenol A from Water Samples”. American Society of Agricultural and Biological Engineers 2017, Spokane, WA.

[9] T. Tat, M. So, N. Vijayavel, P. Raman, J.M. Dickinson, S.S. Angadi, R.J. Gonzales. “Doxorubicin Dose Dependently Attenuates Cyclooxygenase-2 in Female Human Coronary Vascular Smooth Muscle Cells”. Federation of American Societies for Experimental Biology 2017, 31:1. Abstract Number: 826.2

[10] T. Tat, M. So, N. Vijayavel, P. Raman, J.M. Dickinson, S.S. Angadi, R.J. Gonzales. “Doxorubicin Dose Dependently Attenuates Cyclooxygenase-2 in Female Human Coronary Vascular Smooth Muscle Cells”. Experimental Biology 2017, Chicago, IL.

[11] T. Tat, M. So, N. Vijayavel, P. Raman, J.M. Dickinson, S.S. Angadi, R.J. Gonzales. “Doxorubicin Dose Dependently Attenuates Cyclooxygenase-2 in Female Human Coronary Vascular Smooth Muscle Cells”. Biological, Engineering, and Chemical Undergraduate Research Conference 2017, Tucson, AZ.

[12] T. Tat, M. So, N. Vijayavel, P. Raman, J.M. Dickinson, S.S. Angadi, R.J. Gonzales. “Doxorubicin Dose Dependently Attenuates Cyclooxygenase-2 in Female Human Coronary Vascular Smooth Muscle Cells”. Undergraduate Biology Research Program 2017, Tucson, AZ 

[13] P. Raman, T. Tat, R.J. Gonzales. “Glucosamine Hydrochloride and Tunicamycin Attenuate Palmitate-Induced Glycosylation of Cyclooxygenase-2 in Primary Human Vascular Smooth Muscle Cells”. Experimental Biology 2017, Chicago, IL.

[14] M. So, T. Tat, N. Vijayavel, P. Raman, J.M. Dickinson, S.S. Angadi, R.J. Gonzales. “Doxorubicin Dose Dependently Attenuates Cyclooxygenase-2 in Female Human Coronary Vascular Smooth Muscle Cells”. Arizona Physiological Society Meeting 2016, Tucson, AZ .

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