Results 91 to 100 of about 2,074,887 (343)
Neuromorphic Electronics for Intelligence Everywhere: Emerging Devices, Flexible Platforms, and Scalable System Architectures
Advanced Materials, EarlyView.The perspective presents an integrated view of neuromorphic technologies, from device physics to real‐time applicability, while highlighting the necessity of full‐stack co‐optimization. By outlining practical hardware‐level strategies to exploit device behavior and mitigate non‐idealities, it shows pathways for building efficient, scalable, and ...Kapil Bhardwaj, Roshni Satheesh Babu, Yuxin Xia, Eva Bestelink, Radu Sporea, Nikos Hastas, Ioannis Zeimpekis, Dimitra G. Georgiadou, Sayani Majumdar +8 morewiley +1 more sourceOrganic electrode coatings for next-generation neural interfaces [PDF]
, 2014 Traditional neuronal interfaces utilize metallic electrodes which in recent years have reached a plateau in terms of the ability to provide safe stimulation at high resolution or rather with high densities of microelectrodes with improved spatial ...Abidian, Abidian, Abidian, Abidian, Ahearne, Ahmed, Allen, Almany, Andrade, Andrew J. Woolley, Anseth, Aouada, Asplund, Aymard, Babcock, Baek, Baek, Baker, Banati, Banerjee, Banker, Barras, Barrese, Barros, Bartlett, Bhatheja, Bianco, Bidez, Biran, Blau, Bloch, Bolin, Boretius, Bottini, Brummer, Burdick, Campbell, Capadona, Chan, Chen, Cheung, Chikar, Cogan, Cogan, Cogan, Collier, Collinger, Cui, Cui, Cui, Cui, Daud, David-Pur, De Volder, DeLong, Drury, Evans, Fan, Fieberg, Fine, Fitch, Fitch, Fonner, Fujita, Gabay, Geddes, Georgakilas, George, Georges, Gillespie, Gilmour, Green, Green, Green, Green, Green, Green, Green, Green, Green, Green, Green, Guimard, Gumbiner, Haghighi, Hallab, Hascup, Hassarati, Hassler, He, Heim, Higashimori, Hoffman, Houweling, Hsu, Huang, Humayun, Jain, Jhaveri, Johnson, Kagan, Keefer, Kim, Kim, Kim, Kim, Kim, Kim, Krishnan, Kurisawa, Labaye, Lacour, Laura A. Poole-Warren, LaVan, Leach, Lee, Lee, Lee, LeRoux, Letherby, Li, Li, Lim, Lim, Lin, Liu, Lozano, Lu, Ludwig, Ludwig, Luo, Luo, Luo, Ma, Mahadevappa, Majumdar, Mao, Mario Cheong, Martin, Matsumoto, McConnell, McCreery, McCreery, Merker, Merrill, Nakayama, Nguyen-Vu, Nguyen-Vu, Nicodemus, Nigel H. Lovell, Niina, Nilasaroya, Normand, Normann, Novikova, Ochiai, Ochiai, Ouyang, Peixoto, Perlmutter, Piantino, Polikov, Poole-Warren, Rao, Raub, Richardson, Richardson, Richardson-Burns, Richter, Richter, Rosario-Canales, Rose, Rousche, Runge, Rylie A. Green, Sarah, Schmidt, Schuettler, Schuettler, Seidlits, Shannon, Shepherd, Shoval, Sidhu, Stauffer, Stevenson, Suri, Suzuki, Taylor, Telford, Tian, Turner, Tyler, Ulises A. Aregueta-Robles, Vaquette, Wadhwa, Wang, Ward, Webster, Weldon, Wells, Wester, White, Whitney, Wilks, Willerth, Wilson, Winter, Winter, Woolley, Xiao, Xiao, Yamato, Yang, Yang, Yang, Yu, Yu, Zhong, Zhong, Zhong, Zhong, Zuidema +222 morecore +2 more sourcesLarge‐Scale and Cost‐Effective Fabrication of Ultra‐Thin, Biodegradable Microelectrode Arrays and Pressure Sensors Using Laser Micromachining
Advanced Materials Technologies, EarlyView.A mask‐free and cost‐effective UV‐pico‐second laser‐based microfabrication method is proposed to fabricate large‐area biodegradable microelectrode arrays and pressure sensors. These devices demonstrate low impedance, good conformability, excellent biocompatibility, and rapid degradation, providing a new route for next‐generation transient electronics ...Bhavani Prasad Yalagala, Asfand Tanwear, María Cerezo‐Sánchez, Hossein Parvizi, Morteza Amjadi, Hadi Heidari +5 morewiley +1 more sourceHow a Diverse Research Ecosystem Has Generated New Rehabilitation Technologies: Review of NIDILRR’s Rehabilitation Engineering Research Centers [PDF]
, 2017 Over 50 million United States citizens (1 in 6 people in the US) have a developmental, acquired, or degenerative disability. The average US citizen can expect to live 20% of his or her life with a disability. Rehabilitation technologies play a major role A Arnoldussen, A Hansen, A Hansen, A Hansen, A Hansen, A Hansen, A Hansen, A Hansen, A Hansen, A Hansen, A Hansen, A Heinemann, A Heinemann, A Heinemann, A Steinfeld, A Steinfeld, A Steinfeld, AA Rizzo, Aaron Steinfeld, AH Hansen, AH Hansen, AH Hansen, AH Hansen, AH Hansen, AH Hansen, AH Hansen, AH Hansen, AH Hansen, AH Hansen, AH Hansen, AH Hansen, AH Hansen, AH Hansen, AH Hansen, AH Hansen, AH Hansen, AH Hansen, AH Hansen, AW Heinemann, AW Heinemann, B French, B Kemp, B Lange, B Parmanto, BE Dicianno, BJ Hafner, BJ Kemp, BL Faett, BL Plassman, BS Lange, C Bodine, C D’Souza, C Experience, C Gao, C RearLab, C Scherer, Carolee Winstein, Cathy Bodine, CC Collins, CC Wang, CC Wang, Center for Inclusive Design and Environmental Access, CW Heckathorne, CW Heckathorne, D Beukelman, D Childress, DA Hobson, David Brienza, David J. Reinkensmeyer, DD Carroll, DG Kamper, DJ Higginbotham, DJ Reinkensmeyer, DS Childress, DS Childress, DS Childress, DS Childress, DS Childress, DS Childress, DS Childress, DS Childress, DS Childress, DS Childress, DS Childress, DS Childress, E Boutwell, E Boutwell, E Klodd, E Rimmer Wang, E Sorci, E Steinfeld, E Steinfeld, E Steinfeld, E Steinfeld, E Suma, E Taub, EA Biddiss, EA Finkelstein, Edmund Durfee, Edward Steinfeld, EF LoPresti, EF LoPresti, EV Boutwell, F Harris, Frank DeRuyter, G Danford, G Guarniero, G Vanderheiden, G Vanderheiden, Geoff Fernie, Gerald F. Harris, Gregg Vanderheiden, GW Heath, H Hoenig, H Hoenig, Helena Mitchell, HM Al-Angari, IJ Hubbard, J Hidler, J Langone, J Lexell, J McCarthy, J Ochoa, J Patton, JA Doubler, JA Doubler, JA Langlois, JA Lenker, JA Lenker, James H. Rimmer, James L. Patton, JAS Arthanat Lenker, JB Reswick, JC Stewart, JC White, JE Thornton, JH Rimmer, JH Rimmer, JH Rimmer, JL Kailes, JL Patton, John Brabyn, Jon A. Sanford, Jordana Maisel, JR Crawford, JS Rolock, JS Rolock, JW Demers Jutai, JW Steege, JW Steege, JW Steege, K Christensen, K Froelich-Grobe, K Frost, K Frost, K Grint, K Hsieh, K Konop, K Tucker, KA Martin Ginis, KE Oslakovic, Kevin Caves, L Atzori, L Brinkey, L O’Hare, L van Roosmalen, L van Roosmalen, L van Roosmalen, Lawrence Schneider, Levin Sliker, LI Iezzoni, LI Iezzoni, Li-Qun Zhang, LW Schneider, M Bednar, M Buning, M Buning, M Buning, M Daum, M Domingo, M Faul, M Gandy, M Hall, M Manary, M Sam, M Sam, M Wehmeyer, M Wu, MB Silver-Thorn, MB Silver-Thorn, MB Silver-Thorn, MB Silver-Thorn, MB Silver-Thorn, MG Melonis, Michael McCue, Michelle A. Meade, Mike Jones, MJ Scherer, ML Boninger, ML Edwards, ML Wehmeyer, MR Meier, MR Meier, MR Meier, MR Meier, MS Pinzur, MW Brault, N Phillips Flemming, N Sharma, NA Bayona, P Heyn, P Karg, P Karg, P Schwejda, P Welch, P Williams, Patricia Karg, PH Sessoms, Philip S. Requejo, Physical Activity Guidelines Advisory Committee, PS Haubert, PS Requejo, Q Weir, R Proffitt, R Riener, R Williams, RE Cowan, RE Hanlon, RF Weir, RF Weir, RH Lusher, RJ Williams, RM Schein, RS Gailey, RS Hostak, S Arthanat, S Brandenburg, S Fatone, S Fatone, S Fatone, S Fatone, S Fatone, S Fatone, S Fuhrman, S Fuhrman, S Kwak, S Landau, S Sprigle, S Sprigle, S Sprigle, S-Y Chen, SA Gard, SA Gard, SA Gard, SA Gard, SA Gard, SA Gard, SA Gard, Sarah Blackstone, SC Miff, SE Chen Kim, SE Sonenblum, SE Sonenblum, SE Sonenblum, SG Fitzgerald, SJ Housman, Stefania Fatone, Stephen Sprigle, Steven Gard, TA Kuiken, TH Liou, Thomas Corfman, Todd A. Kuiken, TR Farrell, Tracy L. Mitzner, V Paquet, VL Roger, W Abdullah Horner-Johnson, W Rf, W Rf, W Rf, W Rf, W Rf, W Rf, W Rf, W. Zev Rymer, Wendy A. Rogers, Y Li, Y Li, Y Li, Y Li, Y Wu, Y Wu, Y Wu, Yue Li, Z Salipur +295 morecore +3 more sourcesTransducers Across Scales and Frequencies: A System‐Level Framework for Multiphysics Integration and Co‐Design
Advanced Materials Technologies, EarlyView.Transducers convert physical signals into electrical and optical representations, yet each mechanism is bounded by intrinsic trade‐offs across bandwidth, sensitivity, speed, and energy. This review maps transduction mechanisms across physical scale and frequency, showing how heterogeneous integration and multiphysics co‐design transform isolated ...Aolei Xu, Mengyao Xiao, Zhouli Sui, Yinpeng Wang, Daoye Zheng, Yuxin Liu, Luwei Wang, Huajun Liu, Chengkuo Lee +8 morewiley +1 more sourceChemically Doped Conductive Polymers for Wearable Health Monitoring
Advanced Materials Technologies, EarlyView.Among conductive polymers, poly(3,4‐ethylenedioxythiophene):poly(styrenesulfonate) (PEDOT:PSS), polyaniline (PANI), and polypyrrole (PPy) are the most studied and applied. Chemical doping significantly boosts intrinsic conductivity and mechanical robustness.Mengdi Zuo, Jian Song, Hong Hu, Le Zheng, Lei Zhang, Charles H. Lawrie +5 morewiley +1 more sourceComparative mechanical analysis of deep brain stimulation electrodes
BioMedical Engineering OnLine, 2018 The new field of neuro-prosthetics focuses on the design and implementation of neural prostheses to restore some of the lost neural functions. The electrode-tissue contacts remain one of the major obstacles of neural prostheses microstructure.H. H. Draz, S. R. I. Gabran, Mohamed Basha, Hassan Mostafa, Mohamed F. Abu-Elyazeed, Amal Zaki +5 moredoaj +1 more source
