Add to ORKGThe replication of an entire cicada wing was conducted by using a low-surface-energy florin polymer. The replicated polymeric coatings are capable of high-performance antireflection and light diffraction which can enhance light transmission and change the light pathway. The unique improvement in light trapping shows that these biological replicas are suitable for promoting the efficient utilization of light in a wide range of optic devices. ? 2013 The Royal Society of Chemistry.EI03610607-10611
Cicada wings, covered with arranged nanostructures, were widely studied owing to their high transpar...
The general principles of optical design based on the theories of reflection, refraction and diffrac...
Cicada wings, covered with arranged nanostructures, were widely studied owing to their high transpar...
Over the years, different approaches to obtaining antireflective surfaces have been explored, such a...
Optical nanostructures have evolved successfully in nature over millions of years. For example, such...
In this article, we demonstrate a simple and cost-effective approach to fabricate antireflective pol...
The cicada has transparent wings with remarkable self-cleaning properties and high transmittance ove...
Optical anti-reflection means the decrease of reflection as much as possible, which has been used in...
The general principles of optical design based on the theories of reflection, refraction and diffrac...
The general principles of optical design based on the theories of reflection, refraction and diffrac...
Antireflection (AR) nanostructures from biomimetic moth-eye structures which can eliminate the undes...
The general principles of optical design based on the theories of reflection, refraction and diffrac...
Biological systems have a remarkable capability of synthesizing multifunctional materials that are a...
Cicada wings, covered with arranged nanostructures, were widely studied owing to their high transpar...
Cicada wings, covered with arranged nanostructures, were widely studied owing to their high transpar...
Cicada wings, covered with arranged nanostructures, were widely studied owing to their high transpar...
The general principles of optical design based on the theories of reflection, refraction and diffrac...
Cicada wings, covered with arranged nanostructures, were widely studied owing to their high transpar...
Over the years, different approaches to obtaining antireflective surfaces have been explored, such a...
Optical nanostructures have evolved successfully in nature over millions of years. For example, such...
In this article, we demonstrate a simple and cost-effective approach to fabricate antireflective pol...
The cicada has transparent wings with remarkable self-cleaning properties and high transmittance ove...
Optical anti-reflection means the decrease of reflection as much as possible, which has been used in...
The general principles of optical design based on the theories of reflection, refraction and diffrac...
The general principles of optical design based on the theories of reflection, refraction and diffrac...
Antireflection (AR) nanostructures from biomimetic moth-eye structures which can eliminate the undes...
The general principles of optical design based on the theories of reflection, refraction and diffrac...
Biological systems have a remarkable capability of synthesizing multifunctional materials that are a...
Cicada wings, covered with arranged nanostructures, were widely studied owing to their high transpar...
Cicada wings, covered with arranged nanostructures, were widely studied owing to their high transpar...
Cicada wings, covered with arranged nanostructures, were widely studied owing to their high transpar...
The general principles of optical design based on the theories of reflection, refraction and diffrac...
Cicada wings, covered with arranged nanostructures, were widely studied owing to their high transpar...