Triluminescent Functional Composite Pigment for Non‐Replicable Security Codes to Combat Counterfeiting

Nagpal, K. C.

doi:10.1002/slct.201801938

Cited by 13 publications

(7 citation statements)

References 35 publications

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“…This unique triluminescent compound exhibits three luminescent decay mechanisms with lifetimes on the nano-, micro-, and milli-second timescale, respectively. We note that recently also a triluminescent material was demonstrated by Gangwar et al by admixing an upconverting Yb 3+ , Er 3+ -based phosphor (green emission), a down-converting Eu 3+ -based phosphor (red emission), as well as a downshifting zinc oxide phosphor (green emission) (Gangwar et al 2018). However, due to the spectrally separated absorption bands of the three mixed emitters, this material requires a distinct excitation wavelength for each emission spectrum, and also, no time-resolved photoluminescence (TRPL) measurements were presented (Gangwar et al 2018), which clearly delimits it from the triluminescent material presented here.…”

Section: Introductionmentioning

confidence: 72%

“…We note that recently also a triluminescent material was demonstrated by Gangwar et al. by admixing an upconverting Yb 3+ , Er 3+ -based phosphor (green emission), a down-converting Eu 3+ -based phosphor (red emission), as well as a downshifting zinc oxide phosphor (green emission) ( Gangwar et al. 2018 ).…”

Section: Introductionmentioning

confidence: 80%

“…2018 ). However, due to the spectrally separated absorption bands of the three mixed emitters, this material requires a distinct excitation wavelength for each emission spectrum, and also, no time-resolved photoluminescence (TRPL) measurements were presented ( Gangwar et al. 2018 ), which clearly delimits it from the triluminescent material presented here.…”

Section: Introductionmentioning

confidence: 99%

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Rare-earth coordination polymers with multimodal luminescence on the nano-, micro-, and milli-second time scales

et al. 2021

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Summary We present a coordination polymer based on rare-earth metal centers and carboxylated 4,4′-diphenyl-2,2′-bipyridine ligands. We investigate Y 3+ , Lu 3+ , Eu 3+ , and a statistical mixture of Y 3+ with Eu 3+ as metal centers. When Y 3+ or Lu 3+ is exclusively present in the coordination polymer, biluminescence from the ligand is observed: violet emission from the singlet state (417 nm, 0.9 ns lifetime) and orange emission from the triplet state (585 nm, 76 ms (Y 3+ ) and 31 ms (Lu 3+ )). When Eu 3+ is present in a statistical mixture with Y 3+ , red emission from the Eu 3+ (611 nm, ) is observed in addition to the ligand emissions. We demonstrate that this multi-mode emission is enabled by the immobility of singlet and triplet states on the ligand. Eu 3+ only receives energy from adjacent ligands. Meanwhile, in the broad inhomogeneous distribution of ligand energies, higher energy states favor singlet emission, whereas faster intersystem crossing in the more stabilized ligands enhances their contribution to triplet emission.

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Section: Introductionmentioning

confidence: 72%

Section: Introductionmentioning

confidence: 80%

Section: Introductionmentioning

confidence: 99%

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Rare-earth coordination polymers with multimodal luminescence on the nano-, micro-, and milli-second time scales

et al. 2021

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“…Pigments for PVC must be thermally and light stable, have good dispersibility, and be compatible within the formulation. Table 4 shows the different types of pigment [33,39].…”

Section: Pigmentsmentioning

confidence: 99%

Poly Vinyl Chloride Additives and Applications-A Review

Elgharbawy

2022

JRACR

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A Pure polyvinyl chloride (PVC) is a white, brittle material and it is the third-largest polymers produced after polyethylene and polypropylene as 40 million tons of PVC are produced yearly. The basic structure of PVC is (C2H3Cl)n and it is produced by polymerization of the vinyl chloride monomer (VCM) with a polymerization degree ranges from 300 to 1500. The chlorine content in PVC is about 57% by weight, which makes it less dependent on hydrocarbon content. In this paper, we are going to reveal the PVC additives and applications.

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“…The well-known advantages of QR codes such as fast and easy readability independent from the orientation, the ability to endure physical damages recurring to error correction codes, place them as good candidates to be part of the next evaluative step of tag elements. Moreover, compared to electronic labels, QR codes optical elements provide extra advantages such as easy manufacturing (materials based ink printing) [15][16][17][18][19][20] and reading (smartphones) with lower production and operation costs (CAPEX and OPEX), strictly visual and tactile (appealing for societal applications), environmentally sustainable (easy recycling), among others.…”

Section: Introductionmentioning

confidence: 99%

Super modules-based active QR codes for smart trackability and IoT: a responsive-banknotes case study

Ramalho

Correia

et al. 2020

npj Flex Electron

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The general use of smartphones assigns additional relevance to QR codes as a privileged tool to the Internet of Things (IoT). Crucial for QR codes is the evolution to IoT-connected smart tags with enhanced storage capacity and secure accesses. Using the concept of super-modules (s-modules) built from adjacent spatial multiplexed modules with regular geometrical shapes, assisted by colour multiplexing, we modelled and design a single QR code with, at least, the triple storage capacity of an analogous size black/white QR code, acting as a smart-tag ensuring restrict access and trackability. The s-modules are printed using luminescent low-cost and eco-friendly inks based on organic-inorganic hybrids modified by lanthanides with multiplexed colour emission in the orthogonal RGB space. The access to the restrict information is attained only under UV irradiation and encrypted for secure transmission. The concept of active QR codes for smart trackability and IoT was materialised through the development of a free friendly-user mobile app.

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Triluminescent Functional Composite Pigment for Non‐Replicable Security Codes to Combat Counterfeiting

Cited by 13 publications

References 35 publications

Rare-earth coordination polymers with multimodal luminescence on the nano-, micro-, and milli-second time scales

Rare-earth coordination polymers with multimodal luminescence on the nano-, micro-, and milli-second time scales

Poly Vinyl Chloride Additives and Applications-A Review

Super modules-based active QR codes for smart trackability and IoT: a responsive-banknotes case study

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