DNA origami guides precise nanoparticle patterning for tunable metasurfaces
Researchers develop a precise method for patterning gold nanoparticles on surfaces using DNA origami and electron beam lithography, enabling tunable plasmonic metasurfaces.
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Researchers develop a precise method for patterning gold nanoparticles on surfaces using DNA origami and electron beam lithography, enabling tunable plasmonic metasurfaces.
A new coaxial electrospinning method creates uniform ceramic nanofibers and springs from dilute, non-spinnable sols by encapsulating them in a polymer shell.
A new technique called optofluidic crystallithography uses a laser to rapidly grow patterned single-crystal halide perovskites with unprecedented control over morphology, composition, and defect levels.
Researchers have developed a method for integrating functional nanopatterns with comfortable textiles, enabling applications like non-invasive glucose sensing and light-activated antimicrobial masks.
Researchers develop graphene glass fiber fabric that combines high electrical conductivity, low electromagnetic reflectivity, and high electromagnetic transmissivity.
An innovative modular assembly strategy enables the creation of mesoporous materials with highly customized functionalities by precisely integrating multiple tailored nanocrystal components.
Researchers have created a 4D printed soft robot that can crawl and dance using only changes in temperature, offering potential advancements in sustainable, autonomous robotics.
Inkjet printing emerges as a transformative technology for personalized medicine and drug delivery, offering a highly precise and flexible approach to drug formulation and delivery.