An Integrated Brain-Machine Interface Platform With Thousands of Channels

Journals

1. Ioannou P, Kyriakides E, Schneegans O, Giapintzakis J. Evidence of Biorealistic Synaptic Behavior in Diffusive Li-based Two-terminal Resistive Switching Devices. Scientific Reports 2020;10(1) View
2. Ji B, Wang M. Micro-wrinkle strategy for stable soft neural interface with optimized electroplated PEDOT:PSS. Journal of Micromechanics and Microengineering 2020;30(10):104001 View
3. Valle G. The Connection Between the Nervous System and Machines: Commentary. Journal of Medical Internet Research 2019;21(11):e16344 View
4. Mantovani P, Zucchelli M, Conti A. Commentary: Risk Factors for Wire Fracture or Tethering in Deep Brain Stimulation: A 15-Year Experience. Operative Neurosurgery 2020;19(6):E590 View
5. Chen K, Lam S, Kozai T. What directions of improvements in electrode designs should we expect in the next 5–10 years?. Bioelectronics in Medicine 2019;2(3):119 View
6. Lee J. Protonic conductor: better understanding neural resting and action potential. Journal of Neurophysiology 2020;124(4):1029 View
7. Chen Z, Wang B, Palanker D. Harmonic-balance circuit analysis for electro-neural interfaces. Journal of Neural Engineering 2020;17(3):035001 View
8. Huang N, Chen Y, Larsen J, Manoonpong P. AHEAD: Automatic Holistic Energy-Aware Design Methodology for MLP Neural Network Hardware Generation in Proactive BMI Edge Devices. Energies 2020;13(9):2180 View
9. Fang Y, Meng L, Prominski A, Schaumann E, Seebald M, Tian B. Recent advances in bioelectronics chemistry. Chemical Society Reviews 2020;49(22):7978 View
10. Maynard A, Scragg M. The Ethical and Responsible Development and Application of Advanced Brain Machine Interfaces. Journal of Medical Internet Research 2019;21(10):e16321 View
11. Won S, Song E, Reeder J, Rogers J. Emerging Modalities and Implantable Technologies for Neuromodulation. Cell 2020;181(1):115 View
12. Eysenbach G. Celebrating 20 Years of Open Access and Innovation at JMIR Publications. Journal of Medical Internet Research 2019;21(12):e17578 View
13. Naufel S, Klein E. Brain–computer interface (BCI) researcher perspectives on neural data ownership and privacy. Journal of Neural Engineering 2020;17(1):016039 View
14. Chen B, Zhang B, Chen C, Hu J, Qi J, He T, Tian P, Zhang X, Ni G, Cheng M. Penetrating glassy carbon neural electrode arrays for brain-machine interfaces. Biomedical Microdevices 2020;22(3) View
15. De Marcellis A, Di Patrizio Stanchieri G, Faccio M, Palange E, Constandinou T. A 300 Mbps 37 pJ/bit UWB-Based Transcutaneous Optical Biotelemetry Link. IEEE Transactions on Biomedical Circuits and Systems 2020:1 View
16. Shaikh S, So R, Sibindi T, Libedinsky C, Basu A. Towards Intelligent Intracortical BMI (i$^2$BMI): Low-Power Neuromorphic Decoders That Outperform Kalman Filters. IEEE Transactions on Biomedical Circuits and Systems 2019;13(6):1615 View
17. Pisarchik A, Maksimenko V, Hramov A. From Novel Technology to Novel Applications: Comment on “An Integrated Brain-Machine Interface Platform With Thousands of Channels” by Elon Musk and Neuralink. Journal of Medical Internet Research 2019;21(10):e16356 View
18. Bettinger C, Ecker M, Yoshida Kozai T, Malliaras G, Meng E, Voit W. Recent advances in neural interfaces—Materials chemistry to clinical translation. MRS Bulletin 2020;45(8):655 View
19. Reilly C. Brain–Machine Interfaces as Commodities: Exchanging Mind for Matter. The Linacre Quarterly 2020;87(4):387 View
20. DeFranco J, Rhemann M, Giordano J. The Emerging Neurobioeconomy: Implications for National Security. Health Security 2020;18(4):267 View
21. Mankin E, Fried I. Modulation of Human Memory by Deep Brain Stimulation of the Entorhinal-Hippocampal Circuitry. Neuron 2020;106(2):218 View
22. Jia M, Rolandi M. Soft and Ion‐Conducting Materials in Bioelectronics: From Conducting Polymers to Hydrogels. Advanced Healthcare Materials 2020;9(5):1901372 View
23. O'Brien J, Nelson C. Assessing the Risks Posed by the Convergence of Artificial Intelligence and Biotechnology. Health Security 2020;18(3):219 View
24. He F, Lycke R, Ganji M, Xie C, Luan L. Ultraflexible Neural Electrodes for Long-Lasting Intracortical Recording. iScience 2020;23(8):101387 View
25. Jeong Y, Lee H, Shin A, Kim D, Lee K, Kim D. Progress in Brain‐Compatible Interfaces with Soft Nanomaterials. Advanced Materials 2020;32(35):1907522 View
26. Welle E, Patel P, Woods J, Petrossians A, della Valle E, Vega-Medina A, Richie J, Cai D, Weiland J, Chestek C. Ultra-small carbon fiber electrode recording site optimization and improved in vivo chronic recording yield. Journal of Neural Engineering 2020;17(2):026037 View
27. Rashid M, Sulaiman N, P. P. Abdul Majeed A, Musa R, Ab. Nasir A, Bari B, Khatun S. Current Status, Challenges, and Possible Solutions of EEG-Based Brain-Computer Interface: A Comprehensive Review. Frontiers in Neurorobotics 2020;14 View
28. Bolonduro O, Duffy B, Rao A, Black L, Timko B. From biomimicry to bioelectronics: Smart materials for cardiac tissue engineering. Nano Research 2020;13(5):1253 View
29. Gurve D, Delisle-Rodriguez D, Bastos-Filho T, Krishnan S. Trends in Compressive Sensing for EEG Signal Processing Applications. Sensors 2020;20(13):3703 View
30. Loutit A, Potas J. Restoring Somatosensation: Advantages and Current Limitations of Targeting the Brainstem Dorsal Column Nuclei Complex. Frontiers in Neuroscience 2020;14 View
31. Straiton J. Neural–digital interfaces: creating bionic humans. BioTechniques 2020;69(3):153 View
32. Hashemi Noshahr F, Nabavi M, Sawan M. Multi-Channel Neural Recording Implants: A Review. Sensors 2020;20(3):904 View
33. Loutit A, Potas J. Dorsal Column Nuclei Neural Signal Features Permit Robust Machine-Learning of Natural Tactile- and Proprioception-Dominated Stimuli. Frontiers in Systems Neuroscience 2020;14 View
34. Liu Z, Tang J, Gao B, Yao P, Li X, Liu D, Zhou Y, Qian H, Hong B, Wu H. Neural signal analysis with memristor arrays towards high-efficiency brain–machine interfaces. Nature Communications 2020;11(1) View
35. Obaid S, Chen Z, Lu L. Advanced Electrical and Optical Microsystems for Biointerfacing. Advanced Intelligent Systems 2020;2(9):2000091 View
36. Kirsch R, Ajiboye A, Miller J. The Reconnecting the Hand and Arm with Brain (ReHAB) Commentary on “An Integrated Brain-Machine Interface Platform With Thousands of Channels”. Journal of Medical Internet Research 2019;21(10):e16339 View
37. Egert D, Pettibone J, Lemke S, Patel P, Caldwell C, Cai D, Ganguly K, Chestek C, Berke J. Cellular-scale silicon probes for high-density, precisely localized neurophysiology. Journal of Neurophysiology 2020;124(6):1578 View
38. Nurmikko A. Challenges for Large-Scale Cortical Interfaces. Neuron 2020;108(2):259 View
39. Vandekerckhove B, Missinne J, Vonck K, Bauwens P, Verplancke R, Boon P, Raedt R, Vanfleteren J. Technological Challenges in the Development of Optogenetic Closed-Loop Therapy Approaches in Epilepsy and Related Network Disorders of the Brain. Micromachines 2020;12(1):38 View
40. Zhu Z, Ng D, Park H, McAlpine M. 3D-printed multifunctional materials enabled by artificial-intelligence-assisted fabrication technologies. Nature Reviews Materials 2020;6(1):27 View
41. Li H, Liu H, Sun M, Huang Y, Xu L. 3D Interfacing between Soft Electronic Tools and Complex Biological Tissues. Advanced Materials 2021;33(3):2004425 View
42. Mirzakhalili E, Barra B, Capogrosso M, Lempka S. Biophysics of Temporal Interference Stimulation. Cell Systems 2020;11(6):557 View
43. Araki T, Bongartz L, Kaiju T, Takemoto A, Tsuruta S, Uemura T, Sekitani T. Flexible neural interfaces for brain implants—the pursuit of thinness and high density. Flexible and Printed Electronics 2020;5(4):043002 View
44. Yang J, Sawan M. From Seizure Detection to Smart and Fully Embedded Seizure Prediction Engine: A Review. IEEE Transactions on Biomedical Circuits and Systems 2020;14(5):1008 View
45. Luan L, Robinson J, Aazhang B, Chi T, Yang K, Li X, Rathore H, Singer A, Yellapantula S, Fan Y, Yu Z, Xie C. Recent Advances in Electrical Neural Interface Engineering: Minimal Invasiveness, Longevity, and Scalability. Neuron 2020;108(2):302 View
46. Liu R, Zhao S, Liu J. From Lithographically Patternable to Genetically Patternable Electronic Materials for Miniaturized, Scalable, and Soft Implantable Bioelectronics to Interface with Nervous and Cardiac Systems. ACS Applied Electronic Materials 2021;3(1):101 View
47. Tovar D, Westerberg J, Cox M, Dougherty K, Carlson T, Wallace M, Maier A. Stimulus Feature-Specific Information Flow Along the Columnar Cortical Microcircuit Revealed by Multivariate Laminar Spiking Analysis. Frontiers in Systems Neuroscience 2020;14 View
48. Phan H. Implanted Flexible Electronics: Set Device Lifetime with Smart Nanomaterials. Micromachines 2021;12(2):157 View
49. Liu Z, Tang J, Gao B, Li X, Yao P, Lin Y, Liu D, Hong B, Qian H, Wu H. Multichannel parallel processing of neural signals in memristor arrays. Science Advances 2020;6(41) View
50. Do U, Seland F, Johannessen E. A micro fuel cell for abiotical catalysis of glucose. Journal of Power Sources 2020;478:229032 View
51. Pizzolato C, Gunduz M, Palipana D, Wu J, Grant G, Hall S, Dennison R, Zafonte R, Lloyd D, Teng Y. Non-invasive approaches to functional recovery after spinal cord injury: Therapeutic targets and multimodal device interventions. Experimental Neurology 2021;339:113612 View
52. Vázquez-Guardado A, Yang Y, Bandodkar A, Rogers J. Recent advances in neurotechnologies with broad potential for neuroscience research. Nature Neuroscience 2020;23(12):1522 View
53. Sunwoo S, Han S, Joo H, Cha G, Kim D, Choi S, Hyeon T, Kim D. Advances in Soft Bioelectronics for Brain Research and Clinical Neuroengineering. Matter 2020;3(6):1923 View
54. Scholten K, Larson C, Xu H, Song D, Meng E. A 512-Channel Multi-Layer Polymer-Based Neural Probe Array. Journal of Microelectromechanical Systems 2020;29(5):1054 View
55. Gonzalez-Lopez J, Gomez-Alanis A, Martin Donas J, Perez-Cordoba J, Gomez A. Silent Speech Interfaces for Speech Restoration: A Review. IEEE Access 2020;8:177995 View
56. Larsen M. Memory as tyranny: A dataist argument for posthuman interconnectivity in Humans and Real Humans. Memory Studies 2020:175069802098206 View
57. Maier A, Tsuchiya N. Growing evidence for separate neural mechanisms for attention and consciousness. Attention, Perception, & Psychophysics 2021;83(2):558 View
58. Yamin M, Ullah M, Ullah H, Katt B. Weaponized AI for cyber attacks. Journal of Information Security and Applications 2021;57:102722 View
59. Alfonta L. Bioelectrochemistry and the Singularity Point “I Robot”?**. Israel Journal of Chemistry 2021;61(1-2):60 View
60. Woods G, Rommelfanger N, Hong G. Bioinspired Materials for In Vivo Bioelectronic Neural Interfaces. Matter 2020;3(4):1087 View
61. Moreaux L, Yatsenko D, Sacher W, Choi J, Lee C, Kubat N, Cotton R, Boyden E, Lin M, Tian L, Tolias A, Poon J, Shepard K, Roukes M. Integrated Neurophotonics: Toward Dense Volumetric Interrogation of Brain Circuit Activity—at Depth and in Real Time. Neuron 2020;108(1):66 View
62. Sigurdsson S, Yu Z, Lee J, Nurmikko A. A method for large-scale implantation of 3D microdevice ensembles into brain and soft tissue. Microsystems & Nanoengineering 2020;6(1) View
63. Sun B, Zhang H, Zhang Y, Wu Z, Bao B, Hu Y, Li T. Compressed sensing of large-scale local field potentials using adaptive sparsity analysis and non-convex optimization. Journal of Neural Engineering 2021;18(2):026007 View
64. Zhou Y, Ji B, Wang M, Zhang K, Huangfu S, Feng H, Chang H, Yuan X. Implantable Thin Film Devices as Brain-Computer Interfaces: Recent Advances in Design and Fabrication Approaches. Coatings 2021;11(2):204 View
65. Izhar , Wang X, Xu W, Tavakkoli H, Yuen Z, Shan X, Lee Y. Integrated Predicted Mean Vote Sensing System Using MEMS Multi-Sensors for Smart HVAC Systems. IEEE Sensors Journal 2021;21(6):8400 View
66. Dong T, Chen L, Shih A. Laser Sharpening of Carbon Fiber Microelectrode Arrays for Brain Recording. Journal of Micro and Nano-Manufacturing 2020;8(4) View
67. Chang S, Santamaria A, Sanchez F, Villamil L, Saraiva P, Benavides F, Nunez-Gomez Y, Solano J, Opris I, Guest J, Noga B. Deep brain stimulation of midbrain locomotor circuits in the freely moving pig. Brain Stimulation 2021;14(3):467 View
68. Park K. Psychology and Law in the Era of the Fourth Industrial Revolution: New Challenges and Problems. The Korean Journal of Psychology: General 2020;39(4):481 View
69. Zhang Z, Constandinou T. Adaptive spike detection and hardware optimization towards autonomous, high-channel-count BMIs. Journal of Neuroscience Methods 2021;354:109103 View
70. Fiani B, Reardon T, Ayres B, Cline D, Sitto S. An Examination of Prospective Uses and Future Directions of Neuralink: The Brain-Machine Interface. Cureus 2021 View
71. Qiang Y, Gu W, Liu Z, Liang S, Ryu J, Seo K, Liu W, Fang H. Crosstalk in polymer microelectrode arrays. Nano Research 2021;14(9):3240 View
72. Ede J. Deep learning in electron microscopy. Machine Learning: Science and Technology 2021;2(1):011004 View
73. Chén O, Roberts B. Personalized Health Care and Public Health in the Digital Age. Frontiers in Digital Health 2021;3 View
74. Leuthardt E, Moran D, Mullen T. Defining Surgical Terminology and Risk for Brain Computer Interface Technologies. Frontiers in Neuroscience 2021;15 View
75. Hramov A, Maksimenko V, Pisarchik A. Physical principles of brain–computer interfaces and their applications for rehabilitation, robotics and control of human brain states. Physics Reports 2021;918:1 View
76. Steinmetz N, Aydin C, Lebedeva A, Okun M, Pachitariu M, Bauza M, Beau M, Bhagat J, Böhm C, Broux M, Chen S, Colonell J, Gardner R, Karsh B, Kloosterman F, Kostadinov D, Mora-Lopez C, O’Callaghan J, Park J, Putzeys J, Sauerbrei B, van Daal R, Vollan A, Wang S, Welkenhuysen M, Ye Z, Dudman J, Dutta B, Hantman A, Harris K, Lee A, Moser E, O’Keefe J, Renart A, Svoboda K, Häusser M, Haesler S, Carandini M, Harris T. Neuropixels 2.0: A miniaturized high-density probe for stable, long-term brain recordings. Science 2021;372(6539) View
77. Zhang S, Wang C, Linghu C, Wang S, Song J. Mechanics Strategies for Implantation of Flexible Neural Probes. Journal of Applied Mechanics 2021;88(1) View
78. Jang J, Rachim V, Park S. Review of 3D-printing technologies for wearable and implantable bio-integrated sensors. Essays in Biochemistry 2021;65(3):491 View
79. Rabadán A. Neurochips: Considerations from a neurosurgeon’s standpoint. Surgical Neurology International 2021;12:173 View
80. Liu Y, Feig V, Bao Z. Conjugated Polymer for Implantable Electronics toward Clinical Application. Advanced Healthcare Materials 2021;10(17):2001916 View
81. Thielen B, Meng E. A comparison of insertion methods for surgical placement of penetrating neural interfaces. Journal of Neural Engineering 2021;18(4):041003 View
82. Piech J, Czernicki K. Virtual Reality Rehabilitation and Exergames—Physical and Psychological Impact on Fall Prevention among the Elderly—A Literature Review. Applied Sciences 2021;11(9):4098 View
83. Trzpil-Jurgielewicz B, Dąbrowski W, Hottowy P. Analysis and Reduction of Nonlinear Distortion in AC-Coupled CMOS Neural Amplifiers with Tunable Cutoff Frequencies. Sensors 2021;21(9):3116 View
84. Sorrell E, Rule M, O'Leary T. Brain–Machine Interfaces: Closed-Loop Control in an Adaptive System. Annual Review of Control, Robotics, and Autonomous Systems 2021;4(1):167 View
85. Wang Y, Zhang M, Wu R, Wang H, Luo Z, Li G. Speech neuromuscular decoding based on spectrogram images using conformal predictors with Bi-LSTM. Neurocomputing 2021;451:25 View
86. Willett F, Avansino D, Hochberg L, Henderson J, Shenoy K. High-performance brain-to-text communication via handwriting. Nature 2021;593(7858):249 View
87. Dündar-Coecke S. Future avenues for education and neuroenhancement. New Ideas in Psychology 2021;63:100875 View
88. Metcalfe J, Perelman B, Boothe D, Mcdowell K. Systemic Oversimplification Limits the Potential for Human-AI Partnership. IEEE Access 2021;9:70242 View
89. Wu Y, Moon J, Zhu X, Lu W. Neural Functional Connectivity Reconstruction with Second‐Order Memristor Network. Advanced Intelligent Systems 2021;3(8):2000276 View
90. Said A, Sanchez L, Olek M, Havins W. Emerging Neuralink Brain Machine Interface Technology: An Oversight Proposal to Address the Ethical, Legal, and Social Implications. Journal of Legal Medicine 2021;41(sup1):40 View
91. Lanzio V, Telian G, Koshelev A, Micheletti P, Presti G, D’Arpa E, De Martino P, Lorenzon M, Denes P, West M, Sassolini S, Dhuey S, Adesnik H, Cabrini S. Small footprint optoelectrodes using ring resonators for passive light localization. Microsystems & Nanoengineering 2021;7(1) View
92. Karageorgos I, Sriram K, Vesely J, Lindsay N, Wen X, Wu M, Powell M, Borton D, Manohar R, Bhattacharjee A. Balancing Specialized Versus Flexible Computation in Brain–Computer Interfaces. IEEE Micro 2021;41(3):87 View
93. Hashemi Noshahr F, Nabavi M, Gosselin B, Sawan M. Low-Cutoff Frequency Reduction in Neural Amplifiers: Analysis and Implementation in CMOS 65 nm. Frontiers in Neuroscience 2021;15 View
94. Shokur S, Mazzoni A, Schiavone G, Weber D, Micera S. A modular strategy for next-generation upper-limb sensory-motor neuroprostheses. Med 2021;2(8):912 View
95. Becker M. Charge injection capacity of ferroelectric microelectrodes for bioelectronic applications. AIP Advances 2021;11(6):065106 View
96. Khalifa A, Eisape A, Coughlin B, Cash S. A simple method for implanting free-floating microdevices into the nervous tissue. Journal of Neural Engineering 2021;18(4):045004 View
97. Zeng Y, Ferdous Z, Zhang W, Xu M, Yu A, Patel D, Post V, Guo X, Berdichevsky Y, Yan Z. Understanding the Impact of Neural Variations and Random Connections on Inference. Frontiers in Computational Neuroscience 2021;15 View
98. Gao X, Wang Y, Chen X, Gao S. Interface, interaction, and intelligence in generalized brain–computer interfaces. Trends in Cognitive Sciences 2021;25(8):671 View
99. Vėbraitė I, Hanein Y. Soft Devices for High-Resolution Neuro-Stimulation: The Interplay Between Low-Rigidity and Resolution. Frontiers in Medical Technology 2021;3 View
100. Wu Y, Zhu T, Anpo M, Sharifi A. Brain-Computer Interface-Progress and Prospects. E3S Web of Conferences 2021;271:04027 View
101. Uchida M, Yamamoto R, Matsuyama S, Murakami K, Hasebe R, Hojyo S, Tanaka Y, Murakami M. Gateway reflexes, neuronal circuits that regulate the autoreactive T cells in organs having blood barriers. International Immunology 2022;34(2):59 View
102. Simeral J, Hosman T, Saab J, Flesher S, Vilela M, Franco B, Kelemen J, Brandman D, Ciancibello J, Rezaii P, Eskandar E, Rosler D, Shenoy K, Henderson J, Nurmikko A, Hochberg L. Home Use of a Percutaneous Wireless Intracortical Brain-Computer Interface by Individuals With Tetraplegia. IEEE Transactions on Biomedical Engineering 2021;68(7):2313 View
103. Hou K, Yang C, Shi J, Kuang B, Tian B. Nano‐ and Microscale Optical and Electrical Biointerfaces and Their Relevance to Energy Research. Small 2021;17(34):2100165 View
104. DÜNDAR-COECKE S. Nöromodülasyon: Eğitim ve Nörobilim Kavşağından Geleceğe Bakış. Türk Eğitim Bilimleri Dergisi 2021 View
105. Serruya M, Rosenwasser R. An artificial nervous system to treat chronic stroke. Artificial Organs 2021;45(8):804 View
106. Wang D, Tan J, Zhu H, Mei Y, Liu X. Biomedical Implants with Charge‐Transfer Monitoring and Regulating Abilities. Advanced Science 2021;8(16):2004393 View
107. Simmich S, Bahr A, Rieger R. Noise Efficient Integrated Amplifier Designs for Biomedical Applications. Electronics 2021;10(13):1522 View
108. Lim J, Park S, Cho H, Lee Y, Ha I, Kim Y, Hwang E, Lee H, Shin J, Kwon J, Ko S, Hong S. Monolithic digital patterning of polyimide by laser-induced pyrolytic jetting. Chemical Engineering Journal 2022;428:131050 View
109. Chiang C, Wang C, Barth K, Rahimpour S, Trumpis M, Duraivel S, Rachinskiy I, Dubey A, Wingel K, Wong M, Witham N, Odell T, Woods V, Bent B, Doyle W, Friedman D, Bihler E, Reiche C, Southwell D, Haglund M, Friedman A, Lad S, Devore S, Devinsky O, Solzbacher F, Pesaran B, Cogan G, Viventi J. Flexible, high-resolution thin-film electrodes for human and animal neural research. Journal of Neural Engineering 2021;18(4):045009 View
110. Pérez-Prieto N, Delgado-Restituto M. Recording Strategies for High Channel Count, Densely Spaced Microelectrode Arrays. Frontiers in Neuroscience 2021;15 View
111. Boergens K, Tadić A, Hopper M, McNamara I, Fell D, Sahasrabuddhe K, Kong Y, Straka M, Sohal H, Angle M. Laser ablation of the pia mater for insertion of high-density microelectrode arrays in a translational sheep model. Journal of Neural Engineering 2021;18(4):045008 View
112. Núñez-Corrales S, Jakobsson E. Entropic boundary conditions towards safe artificial superintelligence. Journal of Experimental & Theoretical Artificial Intelligence 2023;35(1):1 View
113. Kumaria A, Basu S, Tolias C. Vagus nerve stimulation in ischaemic stroke: further possibilities. British Journal of Neurosurgery 2022;36(4):425 View
114. Kosorukov A. Advanced technological solutions in the sphere of establishing neuro-digital public administration. Социодинамика 2021;(6):53 View
115. Szostak K, Keshavarz M, Constandinou T. Hermetic chip-scale packaging using Au:Sn eutectic bonding for implantable devices. Journal of Micromechanics and Microengineering 2021;31(9):095003 View
116. Hardy N, Habib A, Ivanov T, Yanik A. Neuro-SWARM³: System-on-a-Nanoparticle for Wireless Recording of Brain Activity. IEEE Photonics Technology Letters 2021;33(16):900 View
117. Even-Chen N, Muratore D, Stavisky S, Hochberg L, Henderson J, Murmann B, Shenoy K. Power-saving design opportunities for wireless intracortical brain–computer interfaces. Nature Biomedical Engineering 2020;4(10):984 View
118. Rommelfanger N, Keck C, Chen Y, Hong G. Learning from the brain’s architecture: bioinspired strategies towards implantable neural interfaces. Current Opinion in Biotechnology 2021;72:8 View
119. Hayat H, Nukala A, Nyamira A, Fan J, Wang P. A concise review: the synergy between artificial intelligence and biomedical nanomaterials that empowers nanomedicine. Biomedical Materials 2021;16(5):052001 View
120. Wu X, Yang X, Song L, Wang Y, Li Y, Liu Y, Yang X, Wang Y, Pei W, Li W. A Modified Miniscope System for Simultaneous Electrophysiology and Calcium Imaging in vivo. Frontiers in Integrative Neuroscience 2021;15 View
121. Wittevrongel B, Holmes N, Boto E, Hill R, Rea M, Libert A, Khachatryan E, Van Hulle M, Bowtell R, Brookes M. Practical real-time MEG-based neural interfacing with optically pumped magnetometers. BMC Biology 2021;19(1) View
122. Mian S, Honey J, Carnicer-Lombarte A, Barone D. Large Animal Studies to Reduce the Foreign Body Reaction in Brain–Computer Interfaces: A Systematic Review. Biosensors 2021;11(8):275 View
123. Lee J, Leung V, Lee A, Huang J, Asbeck P, Mercier P, Shellhammer S, Larson L, Laiwalla F, Nurmikko A. Neural recording and stimulation using wireless networks of microimplants. Nature Electronics 2021;4(8):604 View
124. Omori K. Recent Advances in Neurotechnologies Applicable to Otolaryngology. Practica Oto-Rhino-Laryngologica 2022;115(1):1 View
125. Sharafkhani N, Kouzani A, Adams S, Long J, Lissorgues G, Rousseau L, Orwa J. Neural tissue-microelectrode interaction: Brain micromotion, electrical impedance, and flexible microelectrode insertion. Journal of Neuroscience Methods 2022;365:109388 View
126. Kennedy P, Cervantes A. Recruitment and Differential Firing Patterns of Single Units During Conditioning to a Tone in a Mute Locked-In Human. Frontiers in Human Neuroscience 2022;16 View
127. Savolainen O, Zhang Z, Feng P, Constandinou T. Hardware-Efficient Compression of Neural Multi-Unit Activity. IEEE Access 2022;10:117515 View
128. Isagulyan E, Mikhailova V, Aslakhanova K, Slavin K. Prospects of neuromodulation for chronic pain. Brain Disorders 2022;5:100027 View
129. Wei C, Wang Y, Pei W, Han X, Lin L, Liu Z, Ming G, Chen R, Wu P, Yang X, Zheng L, Wang Y. Distributed implantation of a flexible microelectrode array for neural recording. Microsystems & Nanoengineering 2022;8(1) View
130. 刘 珈. Review of Brain-Computer Interface Technology. Artificial Intelligence and Robotics Research 2023;12(01):17 View
131. Wong J, Mayberg H, Wang D, Richardson R, Halpern C, Krinke L, Arlotti M, Rossi L, Priori A, Marceglia S, Gilron R, Cavanagh J, Judy J, Miocinovic S, Devergnas A, Sillitoe R, Cernera S, Oehrn C, Gunduz A, Goodman W, Petersen E, Bronte-Stewart H, Raike R, Malekmohammadi M, Greene D, Heiden P, Tan H, Volkmann J, Voon V, Li L, Sah P, Coyne T, Silburn P, Kubu C, Wexler A, Chandler J, Provenza N, Heilbronner S, Luciano M, Rozell C, Fox M, de Hemptinne C, Henderson J, Sheth S, Okun M. Proceedings of the 10th annual deep brain stimulation think tank: Advances in cutting edge technologies, artificial intelligence, neuromodulation, neuroethics, interventional psychiatry, and women in neuromodulation. Frontiers in Human Neuroscience 2023;16 View
132. Ganesh A, Cervantes A, Kennedy P. Slow Firing Single Units Are Essential for Optimal Decoding of Silent Speech. Frontiers in Human Neuroscience 2022;16 View
133. Farnum A, Parnas M, Hoque Apu E, Cox E, Lefevre N, Contag C, Saha D. Harnessing insect olfactory neural circuits for detecting and discriminating human cancers. Biosensors and Bioelectronics 2023;219:114814 View
134. Pahlavan S, Shooshtari M, Jafarabadi Ashtiani S. Star-Shaped Coils in the Transmitter Array for Receiver Rotation Tolerance in Free-Moving Wireless Power Transfer Applications. Energies 2022;15(22):8643 View
135. Kostick-Quenet K, Kalwani L, Koenig B, Torgerson L, Sanchez C, Munoz K, Hsu R, Sierra-Mercado D, Robinson J, Outram S, Pereira S, McGuire A, Zuk P, Lazaro-Munoz G. Researchers’ Ethical Concerns About Using Adaptive Deep Brain Stimulation for Enhancement. Frontiers in Human Neuroscience 2022;16 View
136. Taylor J, Chauhan A, Taylor J, Shilnikov A, Nogaret A. Noise-activated barrier crossing in multiattractor dissipative neural networks. Physical Review E 2022;105(6) View
137. Panchal V, Dobryden I, Hangen U, Simatos D, Spalek L, Jacobs I, Schweicher G, Claesson P, Venkateshvaran D. Mechanical Properties of Organic Electronic Polymers on the Nanoscale. Advanced Electronic Materials 2022;8(3):2101019 View
138. Ye M, Zestos A, Welle C, Wu G, Cui X. Editorial: Safety and efficacy evaluation of electrical stimulation devices for neural modulation. Frontiers in Neuroscience 2023;17 View
139. Heng W, Solomon S, Gao W. Flexible Electronics and Devices as Human–Machine Interfaces for Medical Robotics. Advanced Materials 2022;34(16):2107902 View
140. Zhao Z, Zhu H, Li X, Sun L, He F, Chung J, Liu D, Frank L, Luan L, Xie C. Ultraflexible electrode arrays for months-long high-density electrophysiological mapping of thousands of neurons in rodents. Nature Biomedical Engineering 2022 View
141. Tang X, Shen H, Zhao S, Li N, Liu J. Flexible brain–computer interfaces. Nature Electronics 2023;6(2):109 View
142. Maitland S, Escobedo-Cousin E, Schofield I, O'Neill A, Baker S, Whittaker R. Electrical cross-sectional imaging of human motor units in vivo. Clinical Neurophysiology 2022;136:82 View
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Books/Policy Documents

1. Bohr A, Memarzadeh K. Artificial Intelligence in Healthcare. View
2. Dougherty K, Maier A. The Senses: A Comprehensive Reference. View
3. Heffernan K, Vetere F, Chang S. Technology-Augmented Perception and Cognition. View
4. Gotovtsev P, Parunova Y, Antipova C, Badranova G, Grigoriev T, Boljshin D, Vishnevskaya M, Konov E, Lukanina K, Chvalun S, Reshetilov A. Macro, Micro, and Nano-Biosensors. View
5. Romele P, Kovács-Vajna Z, Torricelli F. Organic Flexible Electronics. View
6. Luckiewicz A. Control, Computer Engineering and Neuroscience. View
7. Laiwalla F, Leung V, Lee J, Mercier P, Asbeck P, Rao R, Larson L, Nurmikko A. Brain-Computer Interface Research. View
8. Sempreboni D, Viganò L. Socio-Technical Aspects in Security and Trust. View
9. Jassim Jawad A. Bioethical Issues in Healthcare. View
10. Szostak K, Feng P, Mazza F, Constandinou T. Handbook of Neuroengineering. View
11. Davids J, Lidströmer N, Ashrafian H. Artificial Intelligence in Medicine. View
12. Carter J. The Law and Ethics of Freedom of Thought, Volume 1. View
13. Ammar A. Learning and Career Development in Neurosurgery. View
14. Davids J, Ashrafian H. Artificial Intelligence in Medicine. View
15. Laiwalla F, Leung V, Larson L, Nurmikko A. Handbook of Neuroengineering. View
16. Elsobky M. Advances in Semiconductor Technologies. View
17. Triche A, Al Momin M. Security, Data Analytics, and Energy-Aware Solutions in the IoT. View
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