【摘 要】
:
In this talk,we will review major progresses made over the last few years on the emerging and exciting field of nanophotonics and flexible optoelectronics,based on Fano resonance principles in photoni
【机 构】
:
Department of Electrical Engineering,University of Texas at Arlington,USA
【出 处】
:
2015 Shanghai Thin Film Conference(2015上海薄膜国际会议)
论文部分内容阅读
In this talk,we will review major progresses made over the last few years on the emerging and exciting field of nanophotonics and flexible optoelectronics,based on Fano resonance principles in photonic crystals and transfer printed semiconductor nanomembranes.Major breakthroughs to be discussed include membrane lasers on Si for integrated Si photonics,Fano resonance high Q optical filters,total absorption ofmonolayer graphene based on critically coupled cavities,and flexible RF electronics,etc.The convergence of nanomembranes and Fano resonance photonic crystals and metamaterials will also be discussed,with potential applications in the areas of 3D Si CMOS photonics,flexible,bio-inspired/integrated photonic/electronic systems,and multi-spectral multi-color infrared imaging and sensing systems,etc.
其他文献
A surface treatment capable of improving the bone cell response to bioinert titanium(Ti)surface in dental implant applications was developed.A natural cross-linker,genipin,was used to immobilize the b
Ti-10Cu sintered alloy has shown strong antibacterial properties against S.aureus and E.coli and good cell biocompatibility in vitro and in vivo,displaying potential application as an implant material
Biofouling and corrosion are the two major persistent problems for artificial marine infrastructures.A variety of strategies in particular surface coating techniques have therefore been developed for
Due to increased awareness and interest in the biomedical implant field as a result of an aging population,research in the field of implantable devices has grown rapidly in the last few decades.Among
Bone ailografi is the most widely accepted approach in treating patients suffering from large segmental bone defect regardless of the advancement of synthetic bone substitutes[l,2].However,the long-te
Surface topography and chemistry have significant influences on the biological performance of biomedical implants [1,2].Chemically,the surface of implant can be modified by incorporating biocompatible
In nasal reconstruction applications,the response of cells to titanium(Ti)implants is largely determined by the surface characteristics of the implant.In our pilot study,we have applied an electrochem
Titanium(Ti)and its alloys have been commonly used to construct percutaneous bone-fixed implants owing to high mechanical strength,corrosion resistance and biocompatibility.To endow a Ti-based implant
Diamond like carbon(DLC)films are the most potential candidats of artificial joint in biomedical fields.In this study,we used macrophages and osteoblasts as representative cells to investigate the bio
Complex,three dimensional(3D)structures in biology(e.g.cytoskeletal webs,neural circuits,vasculature networks)form naturally to provide essential functions in even the most basic forms of life.Compell