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Surface-enhanced Raman scattering (SERS) is a research technique that was discovered in the mid-1970s. SERS is a powerful and fast tool for analysis, which has a high detection sensitivity for a great number of chemical and biological molecules. However, it is in this last decade that a very significant explosion of the fabrication of highly sensitive SERS substrates has occurred using novel designs of plasmonic nanostructures and novel fabrication techniques of the latter, as well as new plasmonic materials and hybrid nanomaterials. Thus, this Special Issue is dedicated to reporting on the latest advances in novel plasmonic nanomaterials that are applied to the SERS domain. These developments are illustrated through several articles and reviews written by researchers in this field from around the world.

Research & information: general --- pulsed laser ablation --- acetonitrile (CH3CN) --- Cu/gCN hybrids --- localized surface plasmon resonance (LSPR) --- surface enhanced Raman scattering (SERS) --- surface enhanced resonance Raman scattering (SERRS) --- silver aggregates --- laser-induced synthesis --- surface-enhanced Raman scattering --- hot spots --- SERS --- sensors --- plasmonics --- gold --- silicon --- surface-enhanced Raman scattering (SERS) --- surface plasmon polariton (SPP) --- surface plasmon resonance (SPR) --- nanograting --- nanofabrication --- electron beam lithography --- zinc oxide --- metal oxides --- self-assembly --- bimetallic nanoparticles --- localized surface plasmon --- surface enhanced Raman scattering --- grating effect --- gold nanodisks --- Rayleigh anomaly --- pulsed laser ablation --- acetonitrile (CH3CN) --- Cu/gCN hybrids --- localized surface plasmon resonance (LSPR) --- surface enhanced Raman scattering (SERS) --- surface enhanced resonance Raman scattering (SERRS) --- silver aggregates --- laser-induced synthesis --- surface-enhanced Raman scattering --- hot spots --- SERS --- sensors --- plasmonics --- gold --- silicon --- surface-enhanced Raman scattering (SERS) --- surface plasmon polariton (SPP) --- surface plasmon resonance (SPR) --- nanograting --- nanofabrication --- electron beam lithography --- zinc oxide --- metal oxides --- self-assembly --- bimetallic nanoparticles --- localized surface plasmon --- surface enhanced Raman scattering --- grating effect --- gold nanodisks --- Rayleigh anomaly

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Flexible Electronics platforms are increasingly used in the fields of sensors, displays, and energy conversion with the ultimate goal of facilitating their ubiquitous integration in our daily lives. Some of the key advantages associated with flexible electronic platforms are: bendability, lightweight, elastic, conformally shaped, nonbreakable, roll-to-roll manufacturable, and large-area. To realize their full potential, however, it is necessary to develop new methods for the fabrication of multifunctional flexible electronics at a reduced cost and with an increased resistance to mechanical fatigue. Accordingly, this Special Issue seeks to showcase short communications, research papers, and review articles that focus on novel methodological development for the fabrication, and integration of flexible electronics in healthcare, environmental monitoring, displays and human-machine interactivity, robotics, communication and wireless networks, and energy conversion, management, and storage.

hydrophobic paper --- n/a --- conformal design --- stretchability --- stretchable circuits --- long-term plasticity --- tunnel encapsulation --- bio-integrated devices --- epidermal sensors --- artificial synapses --- droplet circuits --- stretchable electronics --- island-bridge --- bottom-up approaches --- liquid metal --- feedback control --- durability --- dry/wet conditions --- solution electronics --- nano-fabrication --- surface plasmon-polariton (SPP) --- electronic measurements --- Polyvinyl Alcohol --- wireless power --- quantum tunneling effect --- low-cost manufacture --- non-developable surface --- top-down approaches --- reliability --- microwave photonics --- tissue adhesives --- temperature sensor --- brain-like intelligence --- electron transport --- wearable stimulators --- variable optical attenuator (VOA) --- ionic conduction --- design metrics --- flexible electronics --- flexible organic electronics --- soft biological tissue --- neuromorphic computing --- wearable heater --- quantum computing --- epidermal electronics --- tunable adhesion --- paper electronics

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Optics and photonics are among the key technologies of the 21st century, and offer potential for novel applications in areas such as sensing and spectroscopy, analytics, monitoring, biomedical imaging/diagnostics, and optical communication technology. The high degree of control over light fields, together with the capabilities of modern processing and integration technology, enables new optical measurement systems with enhanced functionality and sensitivity. They are attractive for a range of applications that were previously inaccessible. This Special Issue aims to provide an overview of some of the most advanced application areas in optics and photonics and indicate the broad potential for the future.

Technology: general issues --- optical --- electric-field --- sensor --- measurement --- transient voltage --- AC power grid --- Pockels effect --- dermatoscopy --- skin screening --- biomedical imaging --- fiber optic sensor --- Sagnac loop --- intensity-modulated --- DWDM --- strain sensor --- structural health monitoring (SHM) --- functionalized carbon structure (FCS) --- carbon reinforced concrete (CRC) --- fiber optic sensor (FOS) --- optical glass fiber --- wavefront sensor --- spatial light modulator --- contour-sum method --- topological charge --- orbital angular momentum --- optical coherence tomography --- Monte Carlo simulation --- structural imaging --- functional sensing --- optical scatterometry --- inverse problem --- profile reconstruction --- dependence analysis --- data refinement --- electro-optic dual-comb interferometry --- laser Doppler velocimetry --- Traceability --- sub-nanosecond laser --- high peak power --- Nd:YVO4 --- stimulated Raman scattering (SRS) --- thermal fracture --- wireless NoC (WiNoC) --- graphene based WiNoCs (GWiNoCs) --- wireless nanosensor networks (WNSNs) --- surface plasmon polariton (SPP) --- GFET --- multiple-input-multiple-output (MIMO) --- graphennas --- THz transceiver --- Mode Division Multiplexing (MDM) --- Few-Mode Fiber (FMF) --- principle mode groups (PMG) --- Bragg grating (BG) --- multi-mode fiber bragg grating --- multi-parameter sensing --- DAS --- fiber optic sensing --- train tracking --- pattern recognition --- hybrid lens --- optical wireless communications --- Li-Fi --- freeform lens --- optic design --- rotary interfaces --- rotary joint --- wireless rotary electrical interface --- rotating electrical connectors --- full-duplex data transfer --- Gigabit-Ethernet --- industrial communications --- real-time --- pathogen detection --- microfluidics --- image processing --- computational algorithms --- integrated optics and photonics --- integrated polymer optics --- organic laser --- integration --- polymeric waveguide --- Lab-on-a-Chip --- fiber optical sensing --- biosensing --- optofluidics --- integrated optics and photoncis --- optical analytics --- medical imaging and diagnostics --- optical communication technology --- distributed sensing

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Optics and photonics are among the key technologies of the 21st century, and offer potential for novel applications in areas such as sensing and spectroscopy, analytics, monitoring, biomedical imaging/diagnostics, and optical communication technology. The high degree of control over light fields, together with the capabilities of modern processing and integration technology, enables new optical measurement systems with enhanced functionality and sensitivity. They are attractive for a range of applications that were previously inaccessible. This Special Issue aims to provide an overview of some of the most advanced application areas in optics and photonics and indicate the broad potential for the future.

Technology: general issues --- optical --- electric-field --- sensor --- measurement --- transient voltage --- AC power grid --- Pockels effect --- dermatoscopy --- skin screening --- biomedical imaging --- fiber optic sensor --- Sagnac loop --- intensity-modulated --- DWDM --- strain sensor --- structural health monitoring (SHM) --- functionalized carbon structure (FCS) --- carbon reinforced concrete (CRC) --- fiber optic sensor (FOS) --- optical glass fiber --- wavefront sensor --- spatial light modulator --- contour-sum method --- topological charge --- orbital angular momentum --- optical coherence tomography --- Monte Carlo simulation --- structural imaging --- functional sensing --- optical scatterometry --- inverse problem --- profile reconstruction --- dependence analysis --- data refinement --- electro-optic dual-comb interferometry --- laser Doppler velocimetry --- Traceability --- sub-nanosecond laser --- high peak power --- Nd:YVO4 --- stimulated Raman scattering (SRS) --- thermal fracture --- wireless NoC (WiNoC) --- graphene based WiNoCs (GWiNoCs) --- wireless nanosensor networks (WNSNs) --- surface plasmon polariton (SPP) --- GFET --- multiple-input-multiple-output (MIMO) --- graphennas --- THz transceiver --- Mode Division Multiplexing (MDM) --- Few-Mode Fiber (FMF) --- principle mode groups (PMG) --- Bragg grating (BG) --- multi-mode fiber bragg grating --- multi-parameter sensing --- DAS --- fiber optic sensing --- train tracking --- pattern recognition --- hybrid lens --- optical wireless communications --- Li-Fi --- freeform lens --- optic design --- rotary interfaces --- rotary joint --- wireless rotary electrical interface --- rotating electrical connectors --- full-duplex data transfer --- Gigabit-Ethernet --- industrial communications --- real-time --- pathogen detection --- microfluidics --- image processing --- computational algorithms --- integrated optics and photonics --- integrated polymer optics --- organic laser --- integration --- polymeric waveguide --- Lab-on-a-Chip --- fiber optical sensing --- biosensing --- optofluidics --- integrated optics and photoncis --- optical analytics --- medical imaging and diagnostics --- optical communication technology --- distributed sensing --- optical --- electric-field --- sensor --- measurement --- transient voltage --- AC power grid --- Pockels effect --- dermatoscopy --- skin screening --- biomedical imaging --- fiber optic sensor --- Sagnac loop --- intensity-modulated --- DWDM --- strain sensor --- structural health monitoring (SHM) --- functionalized carbon structure (FCS) --- carbon reinforced concrete (CRC) --- fiber optic sensor (FOS) --- optical glass fiber --- wavefront sensor --- spatial light modulator --- contour-sum method --- topological charge --- orbital angular momentum --- optical coherence tomography --- Monte Carlo simulation --- structural imaging --- functional sensing --- optical scatterometry --- inverse problem --- profile reconstruction --- dependence analysis --- data refinement --- electro-optic dual-comb interferometry --- laser Doppler velocimetry --- Traceability --- sub-nanosecond laser --- high peak power --- Nd:YVO4 --- stimulated Raman scattering (SRS) --- thermal fracture --- wireless NoC (WiNoC) --- graphene based WiNoCs (GWiNoCs) --- wireless nanosensor networks (WNSNs) --- surface plasmon polariton (SPP) --- GFET --- multiple-input-multiple-output (MIMO) --- graphennas --- THz transceiver --- Mode Division Multiplexing (MDM) --- Few-Mode Fiber (FMF) --- principle mode groups (PMG) --- Bragg grating (BG) --- multi-mode fiber bragg grating --- multi-parameter sensing --- DAS --- fiber optic sensing --- train tracking --- pattern recognition --- hybrid lens --- optical wireless communications --- Li-Fi --- freeform lens --- optic design --- rotary interfaces --- rotary joint --- wireless rotary electrical interface --- rotating electrical connectors --- full-duplex data transfer --- Gigabit-Ethernet --- industrial communications --- real-time --- pathogen detection --- microfluidics --- image processing --- computational algorithms --- integrated optics and photonics --- integrated polymer optics --- organic laser --- integration --- polymeric waveguide --- Lab-on-a-Chip --- fiber optical sensing --- biosensing --- optofluidics --- integrated optics and photoncis --- optical analytics --- medical imaging and diagnostics --- optical communication technology --- distributed sensing