Strain-controlled power devices as inspired by human reflex

[1]  Bradley McPherson,et al.  Aided cortical auditory evoked measures with cochlear implantees: the challenge of stimulus artefacts , 2019, Hearing, Balance and Communication.

[2]  Wei Lu,et al.  A Universal high accuracy wearable pulse monitoring system via high sensitivity and large linearity graphene pressure sensor , 2019, Nano Energy.

[3]  Junlu Sun,et al.  Crystal-Orientation-Related Dynamic Tuning of the Lasing Spectra of CdS Nanobelts by Piezoelectric Polarization. , 2019, ACS nano.

[4]  Junlu Sun,et al.  Achieving high-resolution pressure mapping via flexible GaN/ ZnO nanowire LEDs array by piezo-phototronic effect , 2019, Nano Energy.

[5]  H. Shimada,et al.  Relationship between Daily and In-laboratory Gait Speed among Healthy Community-dwelling Older Adults , 2019, Scientific Reports.

[6]  Mahmoud Rasras,et al.  Monolithic Multi Degree of Freedom (MDoF) Capacitive MEMS Accelerometers , 2018, Micromachines.

[7]  Yi Hu,et al.  Improved Speech Perception in Cochlear Implant Users With Interleaved High-Rate Pulse Trains. , 2018, Otology & neurotology : official publication of the American Otological Society, American Neurotology Society [and] European Academy of Otology and Neurotology.

[8]  Ying Lia Li,et al.  Characterization and Testing of a Micro-g Whispering Gallery Mode Optomechanical Accelerometer , 2018, Journal of Lightwave Technology.

[9]  Weiguo Hu,et al.  Recent Progress on Piezotronic and Piezo‐Phototronic Effects in III‐Group Nitride Devices and Applications , 2018 .

[10]  T. Schmitt,et al.  k-space imaging of anisotropic 2D electron gas in GaN/GaAlN high-electron-mobility transistor heterostructures , 2018, Nature Communications.

[11]  M. Hadders‐Algra,et al.  The tonic response to the infant knee jerk as an early sign of cerebral palsy. , 2018, Early human development.

[12]  F. Alves,et al.  On the design of a MEMS piezoelectric accelerometer coupled to the middle ear as an implantable sensor for hearing devices , 2018, Scientific Reports.

[13]  Huaqiang Wu,et al.  An artificial nociceptor based on a diffusive memristor , 2018, Nature Communications.

[14]  Zhong Lin Wang,et al.  Skin-inspired highly stretchable and conformable matrix networks for multifunctional sensing , 2018, Nature Communications.

[15]  Joon Seop Kwak,et al.  High-power flexible AlGaN/GaN heterostructure field-effect transistors with suppression of negative differential conductance , 2017 .

[16]  Xin Huang,et al.  Enhanced Solar Cell Conversion Efficiency of InGaN/GaN Multiple Quantum Wells by Piezo-Phototronic Effect. , 2017, ACS nano.

[17]  Xin Huang,et al.  Electrical transportation and piezotronic-effect modulation in AlGaN/GaN MOS HEMTs and unpassivated HEMTs , 2017 .

[18]  Qingchuan Tao,et al.  Multiple Hydrogen Bonding Enables the Self-Healing of Sensors for Human-Machine Interactions. , 2017, Angewandte Chemie.

[19]  Arri Priimagi,et al.  A light-driven artificial flytrap , 2017, Nature Communications.

[20]  Yong Ding,et al.  Piezotronic Effect Modulated Heterojunction Electron Gas in AlGaN/AlN/GaN Heterostructure Microwire , 2016, Advanced materials.

[21]  Dong Liu,et al.  Minimizing cross-axis sensitivity in grating-based optomechanical accelerometers. , 2016, Optics express.

[22]  Zhihong Feng,et al.  Influence of sapphire substrate thickness on the characteristics of AlGaN/AlN/GaN heterostructure field-effect transistors , 2015 .

[23]  Thomas Thundat,et al.  Piezotransistive transduction of femtoscale displacement for photoacoustic spectroscopy , 2015, Nature Communications.

[24]  Benli Yu,et al.  Cantilever Fiber-Optic Accelerometer Based on Modal Interferometer , 2015, IEEE Photonics Technology Letters.

[25]  Yei Hwan Jung,et al.  Stretchable silicon nanoribbon electronics for skin prosthesis , 2014, Nature Communications.

[26]  R. Ritchie,et al.  Bioinspired structural materials. , 2014, Nature materials.

[27]  Zheng Zhang,et al.  Enhanced photoresponse of ZnO nanorods-based self-powered photodetector by piezotronic interface engineering , 2014 .

[28]  Yonggang Huang,et al.  Conformable amplified lead zirconate titanate sensors with enhanced piezoelectric response for cutaneous pressure monitoring , 2014, Nature Communications.

[29]  Antoine Cully,et al.  Robots that can adapt like animals , 2014, Nature.

[30]  C. Keplinger,et al.  25th Anniversary Article: A Soft Future: From Robots and Sensor Skin to Energy Harvesters , 2013, Advanced materials.

[31]  Kongchang Wei,et al.  Progressive Macromolecular Self‐Assembly: From Biomimetic Chemistry to Bio‐Inspired Materials , 2013, Advanced materials.

[32]  A. Landragin,et al.  Detecting inertial effects with airborne matter-wave interferometry , 2011, Nature communications.

[33]  S. Islam,et al.  Modeling of AlGaN/GaN HEMT based stress sensors , 2010, International Conference on Electrical & Computer Engineering (ICECE 2010).

[34]  Chongwu Zhou,et al.  2,4,6‐Trinitrotoluene (TNT) Chemical Sensing Based on Aligned Single‐Walled Carbon Nanotubes and ZnO Nanowires , 2010, Advanced materials.

[35]  R. Pfeifer,et al.  Self-Organization, Embodiment, and Biologically Inspired Robotics , 2007, Science.

[36]  Zhong Lin Wang,et al.  Piezotronic Effect tuned AlGaN/GaN High Electron Mobility Transistor. , 2017, Nanotechnology.