Results 251 to 260 of about 120,431 (347)

Investigation of motor unit recruitment during stimulated contractions of tibialis anterior muscle [PDF]

, 2010
Andreassen, Bajd, Basmajian, C. Orizio, Cartee, Dimitrijevic, E. Merlo, Enoka, Farina, Farina, Farina, Farina, Feiereisen, Fuglevand, Gabriel, Gorman, Henriksson-Larsen, Heyters, Knaflitz, Knaflitz, Knight, Kuhn, L. Mesin, Mandrile, Mayr, Merletti, Merletti, Merletti, Mesin, Orizio, Prakash, R. Merletti, Reilly, Rosenfalck, Sadowsky, Skold, Solomonow, Stoykov, Trimble, Vanderthommen   +39 more
core   +1 more source

Unraveling Quantitative Sensing Mechanism and Predictive Molecular Metrics for High‐Performance OFET Amine Sensors

Advanced Functional Materials, EarlyView.
This study introduces a novel chloro boron subphthalocyanine/polymer blend OFET sensor achieving 0.005 ppb limit of detection for ammonia at room temperature and high selectivity against similar amines. An original theoretical framework is proposed to describe the sensing mechanism, relating analyte molecular volume and Lewis basicity to sensor ...
Kavinraaj Ella Elangovan, Matthew P. Confer, Rui Zhang, Siqing Wang, Jeffrey S. Moore, Rohit Bhargava, Ying Diao   +6 more
wiley   +1 more source

MAGTWIST: A Magnetically‐Driven Rotary Actuator Using a Traveling‐Wave With Integrated Stiffness Tunability

Advanced Functional Materials, EarlyView.
MAGTWIST: A compact magnetic rotary actuator, enabling smooth, stepless rotation, and on‐demand locking. Inspired by peristalsis, a soft polymer belt generates a traveling‐wave, enabling 270° rotation when heated. Cooling stiffens the belt, locking it in position and enabling it to withstand high loads.
Simon Frieler, Jean‐Paul P.M. de Vries, Sarthak Misra, Venkatasubramanian Kalpathy Venkiteswaran   +3 more
wiley   +1 more source

Effect of Watermelon Extract on Nerve Conduction Velocity, Memory, and T4 Level in Rats.

Adv Biomed Res, 2020
Jafari Nejad Bajestani M, Yousefi M, Hadjzadeh MA, Hosseini M, Taghipour A, Yousefvand S.   +5 more
europepmc   +1 more source

Ulnar Nerve Enlargement at the Medial Epicondyle Negatively Correlates With Nerve Conduction Velocity in Cubital Tunnel Syndrome. [PDF]

Hand (N Y), 2020
Luo TD, Trammell AP, Hedrick LP, Wiesler ER, Walker FO, Warburton MJ.   +5 more
europepmc   +1 more source

Induction of Action Potentials, and Determining Method of Maximum Conduction Velocity, of Mixed Nerve in Rat's Tail

, 1975
Junichi Misumi
openalex   +2 more sources

Pixelation‐Free, Monolithic Iontronic Pressure Sensors Enabling Large‐Area Simultaneous Pressure and Position Recognition via Machine Learning

Advanced Functional Materials, EarlyView.
A pixelation‐free, monolithic iontronic pressure sensor enables simultaneous pressure and position sensing over large areas. AC‐driven ion release generates spatially varying impedance pathways depending on the pressure. Machine learning algorithms effectively decouple overlapping pressure–position signals from the multichannel outputs, achieving high ...
Juhui Kim, Junseo Lee, Kwang‐Hun Choi, Seongil Im, Jae Hong Kim, Changsoon Choi, Junghwan Byun, Changhwan Shin, Ho Won Jang, Hyunsu Ju, Jung Ah Lim   +10 more
wiley   +1 more source

THE EFFECTS OF TRANSCUTANEOUS AURICULAR VAGUS NERVE STIMULATION ON NERVE CONDUCTION VELOCITY, GRIP STRENGTH, PAIN, AND UPPER EXTREMITY FUNCTIONALITY IN INDIVIDUALS WITH CARPAL TUNNEL SYNDROME

Rıdvan Yıldız, Ali Veysel Özden
openalex   +1 more source

Rolling and Impacting Caustic Drops on Super Liquid‐Repellent Surfaces: In Situ Force and Energy Monitoring of Surface Degradation

Advanced Functional Materials, EarlyView.
The use of continuous drop‐based force and energy probing methods is introduced to evaluate in situ chemical degradation of super liquid‐repellent surfaces by caustic liquids. By tracking the velocity of rolling drops and energy dissipation of impacting drops, degradation dynamics are resolved under high spatio‐temporal precision. Using this technique,
Parham Koochak, Kai Liu, William S. Y. Wong   +2 more
wiley   +1 more source

Biomaterials‐Based Hydrogel with Superior Bio‐Mimetic Ionic Conductivity and Tissue‐Matching Softness for Bioelectronics

Advanced Functional Materials, EarlyView.
By mimicking the ion‐accelerating effect of ion channel receptors in neuron membranes, a biomaterials‐based ionic hydrogel (BIH) is developed, which offers a high ionic conductivity of 7.04 S m−1, outperforming conventional chitosan, cellulose, agarose, starch, and gelatin based ionic hydrogels.
Baojin Chen, Renjie Yu, Jiaqi Wang, Yunxiang Feng, Yujie Zhang, Yanchao Mao, Chongxin Shan, Xudong Wang   +7 more
wiley   +1 more source