Shumao Xu,Kamryn Scott,Farid Manshaii et al.
Shumao Xu et al.
Recent neuroscience reveals the heart's impact on brain activity through blood pulsations, affecting mitral cells in the olfactory bulb. This connection, involving mechanosensitive ion channels like Piezo2, links cardiovascular dynamics to ...
T S Hebner,T J White,M D Dickey et al.
T S Hebner et al.
Motivated by living systems that employ shape morphing to adapt to changes in environmental conditions, we review approaches to realize shape change in polymeric soft materials. We classify these shape morphing materials as those that respo...
Junyi Yin,Shaolei Wang,Farid Manshaii et al.
Junyi Yin et al.
The electrical properties of radiofrequency (RF) components in skin-interfaced stretchable electronics change significantly due to skin strain induced by body movements and physiological activities, markedly degrading wireless performance. ...
Shumao Xu,Guorui Chen,Kamryn Scott et al.
Shumao Xu et al.
Recent advances in nerve cuff electrodes, which integrate soft electrochemical actuators and neural microelectrodes, offer a minimally invasive method for peripheral nerve interfacing. Utilizing low-voltage electric actuation, these cuffs e...
Songyue Chen,Farid Manshaii,Xiujun Fan et al.
Songyue Chen et al.
A three-dimensional liquid diode has been developed to transport sweat and create breathable bioelectronics. The utilization of hydrophilic and curvature gradients facilitates water lifting, enhancing the adhesion time and signal stability ...
Shumao Xu,Farid Manshaii,Jun Chen
Shumao Xu
Leveraging the air-trapping features of the lotus leaf, recent advancements in pressure sensors have introduced a unique aero-elastic capacitive pressure sensor using a gas-liquid-liquid-solid multiphasic interface. This innovation signific...
Junyi Yin,Shaolei Wang,Xiao Xiao et al.
Junyi Yin et al.
The exploration of biomimetic materials for bioelectronics is driving transformative advancements in medical technology and beyond. Drawing inspiration from nature's intricate designs, these materials hold immense potential for creating bio...
Ultrafast-relaxing and photopolymerizable PEG hydrogels enable viscoelasticity-mediated cell remodeling in synthetic matrices [0.03%]
超快松弛和光聚合的PEG水凝胶使细胞在合成基质中通过粘弹性介导发生重塑
Bruce E Kirkpatrick,Abhishek P Dhand,Lea Pearl Hibbard et al.
Bruce E Kirkpatrick et al.
Synthetic hydrogels provide powerful material platforms to engineer cellular microenvironments with control over stiffness, viscoelasticity, porosity, degradability, and biochemical signals. Here, we demonstrate how orthogonal crosslinking ...
Modular salt-induced nanostructures formed by a functionalized dipeptide system [0.03%]
功能性二肽体系形成的模块化盐致纳米结构
Simona Bianco,Ravi R Sonani,Dipankar Ghosh et al.
Simona Bianco et al.
Self-assembling peptides have great potential in nanotechnology. We introduce the naphthalene-modified dipeptide isoleucine-phenylalanine (2NapIF) as a modular system for creating various nanostructures via self-assembly, including fibers, ...
Yasha Saxena,Lindsay Riley,Runxin Wu et al.
Yasha Saxena et al.
Geometric classifications of 3D pores are useful for studying relationships between pore geometry and function in granular materials. Pores are typically characterized by size, but size alone cannot explain 3D phenomena like transport. Here...