Results 111 to 120 of about 37,624 (294)
Two‐Photon 3D Printing of Functional Microstructures Inside Living Cells
Advanced Materials, EarlyView.This study demonstrates 3D printing inside living cells by using two‐photon photo‐lithography. A bio‐compatible photoresist is injected into cells and selectively polymerized with a femtosecond laser, creating custom‐shaped intracellular structures with submicron resolution.
Maruša Mur +4 more
wiley +1 more source
Advanced Materials, EarlyView.The field of polymer thermoelectrics is entering a new era, featuring breakthroughs in addressing the conventional performance disparity between p‐type and n‐type polymers, pioneering doping frontiers, and sophisticated decoupling strategies. This review explores innovations in molecular design and superior stabilities, bridging the gap from ...
Suhao Wang
wiley +1 more source
Directed Self-Assembly of Magnetite Through Electrospinning With Potential Applications in Nanopatterning [PDF]
, 2016 Electrospinning is a unique method for producing micro and nano sized polymeric nanofibers consisting of high surface area, porosity and flexibility.
Aikebaier, Kamila +2 more
core
Conductive Hydrogels for Exogenous Sensing and Cell Fate Control
Advanced Materials, EarlyView.We engineer electrically conductive hydrogels by combining sulfated glycosaminoglycans with semiconducting polymers. These hydrogels bind bioactive proteins, including growth factors, whose release or retention can be modulated by low‐voltage stimulation. The hydrogels are also integrated as 3D channels in organic electrochemical transistors as part of
Teuku Fawzul Akbar +15 more
wiley +1 more source
Counterion‐Controlled Photocatalytic Doping of Organic Semiconductors
Advanced Materials, EarlyView.Counterion size is shown to actively control photocatalytic doping in organic semiconductors. Small anions suppress aggregation of acridinium photocatalysts, enhance electron transfer, and dramatically increase doping efficiency. This simple strategy enables conductivities up to 2000 S cm−1 in benchmark polymers, revealing counterions as a powerful yet
Tiefeng Liu +16 more
wiley +1 more source
Journal of Materials Chemistry, 2005 Recent work by a number of groups has highlighted the emerging potential associated with the marriage of nanoscale electronics and biological structure. Many biological macromolecules have evolved into structures typically primed for highly-specific surface recognition, analyte binding and, in some cases, facile and directional electron tunnelling. The
Davis, J +5 more
openaire +1 more source
Bioelectrical Interfaces Beyond Excitable Cells: Cancer, Aging, and Gene Expression Modulation
Advanced Materials Interfaces, EarlyView.ABSTRACT The investigation of biological conductivity has evolved from its classical foundation based on ionic fluxes underpinning cardiac and neuronal excitability to a multifaceted regulator of cellular physiology. Traditional approaches for probing electrical events in living matter focused largely on action potentials recording.
Paolo Cadinu +14 more
wiley +1 more source
3D IMAGING OF BRAIN AND OTHER TUMORS BY LIGHT SHEET MICROSCOPY
IBRO Neuroscience Reports, 2023 Hans-Ulrich Dodt +6 more
doaj +1 more source
Advanced Materials Interfaces, EarlyView.Zero‐dimensional carbon nanomaterials are presented as multifunctional platforms linking structure, property, and sensing performance. Surface engineering and heteroatom doping modulate electron‐transfer and luminescent behavior, enabling electrochemical, photoluminescent, and electrochemiluminescent detection. Fundamental design principles, analytical
Gustavo Martins +8 more
wiley +1 more source
Advanced ScienceMicro/nanoscale 3D bioelectrodes gain increasing interest for electrophysiological recording of electroactive cells. Although 3D printing has shown promise to flexibly fabricate 3D bioelectronics compared with conventional microfabrication, relatively ...
Bingsong Gu +12 more
doaj +1 more source