Results 311 to 320 of about 6,737,339 (379)
Advanced Materials Interfaces, EarlyView.Anisotropic and gradient‐wettability surfaces fabricated via acoustic assembly photopolymerization (AAP) enable precise, programmable, and energy‐free droplet transport. The established process–property relationship allows tunable and predictable hydrodynamic performance, providing a scalable route toward advanced microfluidic and biosensing ...
Yinong Chen, Yayue Pan
wiley +1 more source
Advanced Materials Interfaces, EarlyView.This study reviews the relevant work regarding the modification of self‐assembled monolayers (SAMs) by electron irradiation. Both fundamental aspects and the related implications and applications are addressed. The latter includes tuning SAM properties, preparation of binary SAMs, conventional and chemical lithography, carbon nanomembranes, control of ...
Andreas Terfort, Michael Zharnikov
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Advanced Materials Technologies, Volume 10, Issue 6, March 18, 2025.This review focuses on the application of synthetic biodegradable microarray patches (MAPs) in sustained drug delivery. Compared to conventional MAPs which release drugs into the skin in an immediate manner, these implantable MAPs release drugs into skin microcirculation gradually as the biodegradable polymers degrade, thus offering sustained release ...
Li Zhao +6 more
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Printed Interconnects for Heterogeneous Systems Integration on Flexible Substrates
Advanced Materials Technologies, Volume 10, Issue 6, March 18, 2025.Key components (sensors, energy devices, communication devices, computing chips, and interconnects) of flexible hybrid electronic (FHE) system connected via conductive printed metal tracks. The figure in the insets shows out‐of‐plane printed interconnects providing opportunities for lithography‐free formation of VIAs, in‐plane access of UTCs pads, and ...
Abhishek Singh Dahiya +3 more
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Current Opinion in Neurobiology, 1991
The exact nature of growth cone motility is far from understood but progress has been made in several areas. It now appears that growth cones pull and not push; we will review the biophysical basis of growth cone movement. Current ideas on the regulation of growth cone motility and the relationship between motility and axon pathfinding are also ...
S R, Heidemann, R E, Buxbaum
openaire +2 more sources
The exact nature of growth cone motility is far from understood but progress has been made in several areas. It now appears that growth cones pull and not push; we will review the biophysical basis of growth cone movement. Current ideas on the regulation of growth cone motility and the relationship between motility and axon pathfinding are also ...
S R, Heidemann, R E, Buxbaum
openaire +2 more sources
Trends in Neurosciences, 2008
Wiring up the nervous system depends on the precise guidance of axonal growth cones to their targets. A key mechanism underlying this guidance is chemotaxis, whereby growth cones detect and follow molecular gradients. Although recent work has uncovered many of the molecules involved in this process, the mechanisms underlying chemotactic axon guidance ...
Mortimer, Duncan +4 more
openaire +3 more sources
Wiring up the nervous system depends on the precise guidance of axonal growth cones to their targets. A key mechanism underlying this guidance is chemotaxis, whereby growth cones detect and follow molecular gradients. Although recent work has uncovered many of the molecules involved in this process, the mechanisms underlying chemotactic axon guidance ...
Mortimer, Duncan +4 more
openaire +3 more sources
Trends in Neurosciences, 1989
The growth cone is a crucial structure in effecting neurite elongation and guiding the neurite onto correct pathways by responding to environmental cues. Recently developed techniques in light and electron microscopy have greatly improved our understanding of the dynamic organization of membrane and cytoskeleton within the growth cone.
D J, Goldberg, D W, Burmeister
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The growth cone is a crucial structure in effecting neurite elongation and guiding the neurite onto correct pathways by responding to environmental cues. Recently developed techniques in light and electron microscopy have greatly improved our understanding of the dynamic organization of membrane and cytoskeleton within the growth cone.
D J, Goldberg, D W, Burmeister
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Current Biology, 1992
Neurons obtain their stereotyped morphologies and connections as a result of growth cone migration. In the past year, studies on growth cone migration and pathfinding have helped to define certain properties of cytoskeletal filaments and cell membranes that may be important in growth cone function.
C, Cypher, P C, Letourneau
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Neurons obtain their stereotyped morphologies and connections as a result of growth cone migration. In the past year, studies on growth cone migration and pathfinding have helped to define certain properties of cytoskeletal filaments and cell membranes that may be important in growth cone function.
C, Cypher, P C, Letourneau
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Science, 1998
Growth cones are the specialized tips of neuronal axons that make their way through the nervous system in search of a correct target. In his Perspective, Caroni outlines the signaling mechanisms that help steer the growth cone as it moves, and discusses a report by Song et al .
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Growth cones are the specialized tips of neuronal axons that make their way through the nervous system in search of a correct target. In his Perspective, Caroni outlines the signaling mechanisms that help steer the growth cone as it moves, and discusses a report by Song et al .
openaire +2 more sources