The multifunctional energy-storage and luminescent material is a modified rare-earth aluminate, which is a high-reflectivity self-illuminating material with both aesthetic and functional properties. It can absorb invisible light and convert it into visible light, and can be used as a secondary light source to assist in tunnel lighting ( Feng et

The multifunctional energy-storage and luminescent material is a modified rare-earth aluminate, which is a high-reflectivity self-illuminating material with both

Multifunctional materials (MFS), Multifunctional composites (MFC) and Multifunctional structures (MFS) are the sub branches of Multifunctional material systems (MFMS) [1]. The need of excess components is eliminated by combining of one or more functional capabilities of subsystems with the total structure so that the total system mass

The metal halides have great application prospects in energy storage, photocatalysis the high-temperature reversible phase transition multifunctional material hybrid metal halide [FC 6 H This result well demonstrates that 1 with fluorescent properties is a promising luminescent material, which will expand its application fields.

Energy-Storage and Luminescent Material for Sustainable and Energy-saving Lighting for Tunnels (LUMA) CHINA. Presented by : Xiaoying Zhuang. Designer:Anhui Zhongyi New Material Science and Technology Co., LTD. Chief Engineer:Shouzhong Feng. Senior

Hierarchically channel-guided porous wood-derived shape-stabilized thermal regulated materials with enhanced thermal conductivity for thermal energy storage. Low-cost, high thermal conductivity, shape-stable composite phase change materials (c-PCMs) are in high demand for energy saving, storage, and conversion.

Simultaneously, the lattice phonon energy is small enough (compared to the large energy gap of 3091 cm −1) between the 2 H 11/2/ 4 S 3/2 energy levels and the 4 F 9/2 energy level to prevent

After the energy-storage and luminescent coating and gray cloth were decorated on the tunnel sidewalls, the material reflectance was measured to be 0.9 and 0.3 for the coating and cloth, respectively, by the C84-Ш reflectance tester (see Figure 4a).

Ultimately, the luminescent ceramic of 0.6BNT-0.4STT exhibits superior comprehensive energy storage properties: large W rec (3.52 J/cm 3), high η(84.2%), excellent temperature/frequency stability and large power density (220 MW/cm 3), which make 0.6BNT-0

With the continuous growth in sustainable and renewable technologies, ceramic capacitors are emerging as a promising energy storage device. Lead-free (1-x)[(Na 0.4 K 0.1 Bi 0.5) 0.94 Ba 0.06 TiO 3]-xLa 0.2 Sr 0.7 TiO 3 (0 ≤ x ≤ 0.40) ceramics were prepared using the solid-state reaction technique for obtaining relaxor characteristics with

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These multi-mode luminescent materials exhibit good performance in anti-counterfeiting, NIR imaging, and temperature sensing. This work provides new

Multifunctional materials are designed so as to meet specific requirements through tailored properties. Smart materials can be considered as multifunctional ones that have the ability to react upon an external stimulus, simulating, in this way, the behavior of nature''s materials. Furthermore, the introduction of

Long afterglow luminescence material is an important energy storage material. For large-scale applications, the low afterglow brightness especially in the slow decay process is a weak point.

Based on this, the PRMs were subdivided into fluorescent road markings (FRMs) and persistent phosphorescent road markings (PPRMs) in this study. The PRMs mainly achieve their self-luminous characteristics through the addition of luminescent materials, which provide a good visual environment for traffic participants by self

With the rapid development of modern technology and information systems, optical anti-counterfeiting and encryption have recently attracted considerable attention. The demand for optical materials is also constantly increasing, with new requirements proposed for performance and application fields. Currently, rare earth ion doped materials possess

Lithium-containing silicate compounds have attracted so much attention in recent years for applications in energy storage and illumination source due to their rigid structure and good electrical conductivity this study, a Eu 3+ doped lithium-containing silicate red phosphor, Li 2 Ca 4 Si 4 O 13:Eu 3+, was explored by using structural

multifunctional energy-storage and luminescent material combined with LED lamps for tunnel lighting is a new direction for the design of energy-saving lighting in highway

High total energy storage density (4.7 J/cm3) and recoverable energy storage density (2.7 J/cm3) along with energy storage efficiency (58%) are observed for the x = 0.04 sample at the applied

This special issue covers a series of cutting-edge works on exploring novel rare earth luminescent materials and their sensing 10, optical information storage 11, energy conservation 12, and

In conclusion, this special issue focuses on recent pro-gress made with rare earth luminescent materials and considers designs, preparation methods and applications in lighting, displays, sensing

Eventually, the energy of these excited energy levels matches with those of the Ln, thereby decreasing the non-radiative energy loss which originates from thermal vibration of O H groups. It is noteworthy that most of the literature reports discussed only about multifunctional materials, while for designing practical devices the goal would be

The papers published in this Special Issue [] focus on current investigations into a selected array of metal complexes and related coordination polymers.The synthesis of multifunctional coordination polymers has been developed at a fast rate, covering a broad range of main-group metals, transition metals, rare-earth

Notably, the enhanced energy storage properties ( ∼ 3.38 J/cm, ∼ 84.5 %) and desirable red-orange emission performance (λ = 610 nm) were obtained for SrSmAgNaNbTiO

Luminescent spectra and luminescent decay curves supported the energy transfer from Tb 3+ to Eu 3+ ions, and the emission color of Tb-Eu co-doped films can be tuned by water molecules. Thus, HA-(Tb 0.3 Eu 0.7 ) film was applied as a self-referencing and ratiometric luminescent sensor for humidity detection, where the

In recent years, multifunctional form-stable composite phase change materials have been the research focus in the field of thermal energy storage. In this work, magnetic wood-based composite phase change materials are prepared via the impregnation of a compound of 1-tetradecanol and Fe 3 O 4 nanoparticles into delignified

Technical product/equipment innovation of the year: Multifunctional energy-storage and luminescent material for sustainable and energy-saving lighting for tunnels. 26 November 2018. Share. Tweet. Email. Entrances and exits road tunnel are high-risk areas for traffic accidents.

Ultimately, the luminescent ceramic of 0.6BNT-0.4STT exhibits superior comprehensive energy storage properties: large W rec (3.52 J/cm 3), high η(84.2%),

The novel multifunctional full-wood photoluminescent and photothermic materials have important potential application in decoration, building, furniture and storage box for advanced energy storage and optical devices. Download : Download high-res image (187KB) Download : Download full-size image. Fig. 1.

To date, the development of X-ray-activated, nanosized PL materials with a tunable luminescence in the NIR-II window, as well as a well-controlled, multifunctional nanostructure for in vivo

The best energy-storage properties with large energy storage density (Wrec = 7.13 J/cm3), a high efficiency (η = 90.3%), and an ultrafast discharge time (25 ns) were achieved in the NBT-ST-0.4CTN

Highlights. Lanthanide-based luminescent hybrid materials show multifunctional behavior. They have potential applications in sensors, LEDs, security inks, and solar cells. Upconverting hybrid materials could be used in bioimaging and anticounterfeiting. They can enhance UV stability and the efficiency of halide perovskite

Development of generalized synthesis strategies to inorganic functional materials; Investigation of formation and crystallization mechanisms; Surface functionalization of particles; Assembly and processing of particles into 1, 2 and 3D materials; Applications in energy storage and conversion, electronics, luminescent materials and photocatalysis

Phase change materials (PCMs) have been investigated for energy storage applications, it has high thermal storage densities and nearly isothermal process can use latent heat to store energy (Sharma et al.,

Co-doping of rare earth Sm 3+ and ferroelectric active Ti 4+ ions in A and B sites resulted in high-performance multifunctional materials with remarkable

Notably, the enhanced energy storage properties ( ∼ 3.38 J/cm, ∼ 84.5 %) and desirable red-orange emission performance (λ = 610 nm) were obtained for SrSmAgNaNbTiO ceramics. Moreover, the multifunctional ceramics exhibited high power and current densities ( ∼ 116.38 MW/cm, ∼ 1026.43 A/cm) together with a prolonged decay life (745

Here, a novel multifunctional phosphor of Li 1−x Ga 5 O 8: x Pr 3+ is reported. The crystal structure, mechanoluminescence (ML), persistent luminescence

With the continuous growth in sustainable and renewable technologies, ceramic capacitors are emerging as a promising energy storage device. Lead-free (1-x)[(Na 0.4 K 0.1 Bi 0.5) 0.94 Ba 0.06 TiO 3]-xLa 0.2 Sr 0.7 TiO 3 (0 ≤ x ≤ 0.40) ceramics were prepared using the solid-state reaction technique for obtaining relaxor characteristics with

energy storage, in the fi eld of photovoltaics with production capacity, the emerging material-halide perovskites, which has received extensive attention, have also received wide-