Highly sensitive and repeatable recording photopolymer for holographic data storage containing <i>N</i>-methylpyrrolidone

Jin, Junchao; Hu, Po; Song, Haiyang; Li, Jinhong; Wu, Junhui; Zeng, Zeyi; Li, Qingdong; Wang, Li; Lin, Xiao; Tan, Xiaodi

doi:10.1039/d3mh01729j

Cited by 7 publications

(3 citation statements)

References 63 publications

(87 reference statements)

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“…In addition, volatile photopolymers have poor dimensional and thermal stability, which limits their practical applications 7 . Two-stage photopolymers can avoid the use of organic solvents [8][9][10] , but there are only a few holographic photopolymers in the literature having Δn above 0.02 5,11,12 . In addition, reflection VHGs are required to meet the application requirements in the AR field 3 .…”

Section: Introductionmentioning

confidence: 99%

High-performance photopolymers for recording transmission/reflection holographic gratings

Guo,

Wang,

Zhang

et al. 2024

International Workshop on Holography and Related Technologies (IWH2022 &Amp; 2023)

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Section: Introductionmentioning

confidence: 99%

High-performance photopolymers for recording transmission/reflection holographic gratings

Guo,

Wang,

Zhang

et al. 2024

International Workshop on Holography and Related Technologies (IWH2022 &Amp; 2023)

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“…Photopolymers for holographic recording consist of three main components: photoinitiating system, host matrix, and writing monomer. ,, The host matrix (also known as a binder or film-forming resin) plays a role in shaping and supporting to provide mechanical stability for the photopolymer. , During holographic exposure, the monomers in bright fringes undergo polymerization first. Then, a concentration gradient is generated between the bright and dark fringes, which drives the monomers in the dark fringes to migrate to the bright fringes. , Meanwhile, the host matrix in the bright fringes is squeezed into dark fringes .…”

Section: Introductionmentioning

confidence: 99%

High-Performance Holographic Photopolymers Based on Low Refractive Index Host Matrices Containing Fluoroelastomers

Guo,

Wang,

Zhang

et al. 2024

ACS Appl. Polym. Mater.

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The refractive index modulation (Δn) of photopolymers is a key performance indicator in determining their application potentials in holographic optical elements (HOEs). In this study, four fluoroelastomers (HT-HS, HT-F185, HT-L80, and HT-F197) containing hydroxyl groups as active functional groups are selected to construct low refractive index host matrices with isocyanates. Through a combination of them with high refractive index monomers, a series of transparent photopolymers are obtained. Among them, one containing 16 wt % HT-F197 has the highest sensitivity, which can record a transmission volume holographic grating (VHG) with high resolution (3600 lines/mm) and diffraction efficiency (95.76%) under exposure of a 532 nm laser. Its Δn is up to 0.054. Furthermore, a reflection VHG with high performance (4900 lines/mm resolution and 92.32% diffraction efficiency) can also be achieved. After photobleaching, its transmittance within 400−800 nm reaches 96.21%, showing great potential in the fabrication of transparent HOEs.

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“…The exponential growth of datasphere will shoot up to 175 ZB in 2025; therefore, severe challenges will be coming for the existing data storage system. − Holographic data storage, − employing multiple coherent laser beams recording the information onto the photosensitive medium, is recognized as a promising next generation eco-friendly data storage technology with huge capacity and high storage speed, having achieved unprecedented development the over past decades. − Various materials have been used for holographic data storage, ,,− but a lack of appropriate high-sensitivity storage materials remains a major obstacle toward the fully practical application of volume holographic data storage. , The excellent characteristics of low photoinduced volume shrinkage and chemical stability facilitate phenanthraquinone/poly(methyl methacrylate) (PQ/PMMA) photopolymer’s application on holographic storage as an economic optical storage medium, nevertheless, itself heavily constrained by its intrinsic poor holographic performance, especially the low photosensitivity and inadequate diffraction efficiency and refractive index modulation. − More previous reports show that, as a photosensitizer at 532 nm, PQ will react with CC more rapidly during exposure; , thence, various strategies have been proposed to improve the holographic properties of PQ/PMMA by increased the double bond content using co-monomer. ,− In general, the CC bond from the hyperbranched co-monomer will promote the formation of cross-linked (grafted) macromolecules. ,,, However, the influence of cross-linking degree on the holographic properties of photopolymers is rarely mentioned, and the physical mechanism remains unclear.…”

Section: Introductionmentioning

confidence: 99%

Cross-Linking Degree Modulated Highly Sensitive Photopolymer for Holographic Data Storage by Introducing 1,3,5,7-Tetravinyl-1,3,5,7-tetramethylcyclotetrasiloxane

Hu,

Zheng,

Jin

et al. 2024

ACS Appl. Polym. Mater.

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Herein, via introducing 1,3,5,7-tetravinyl-1,3,5,7-tetramethylcyclotetrasiloxane (V4D4) cross-linker, we dramatically improved the holographic properties of phenanthraquinone (PQ) doped poly(methyl methacrylate) (PMMA) photopolymer with high sensitivity of 0.92 cm J −1 , high diffraction efficiency ∼ 73%, and insignificant volume shrinkage ∼ 0.35% for holographic data storage, respectively. Cross-linked V4D4-PMMA macromolecules here dramatically enhance the photosensitivity about 3.4 times and diffraction efficiency more than 55%. Further analysis reveals that V4D4 obviously changed the molecular structure by cross-linking reaction with PMMA chain to be a 3D cross-linking macromolecule. And the residual vinyl groups of V4D4-PMMA dramatically accelerated the photoreaction progress, and an hexatomic ring structured −C−O−C− bond formed between V4D4 and PQ. However, further analysis demonstrates that there is a strong positive correlation between the diffraction efficiency and photosensitivity with the degree of cross-linking in V4D4-PMMA. Moreover, the cross-linked V4D4-PMMA structure enhances the mechanical properties slightly and so suppressed the volume shrinkage of PQ/PMMA during photoreaction. Finally, the microphysical thermal-reaction and photoreaction mechanisms of V4D4 on the holographic performance of PQ/PMMA were investigated. Therefore, V4D4-PMMA/PQ macromolecular photopolymer appeared to be promising for promoting the development of high-sensitivity holographic data storage.

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Highly sensitive and repeatable recording photopolymer for holographic data storage containing N-methylpyrrolidone

Abstract: Schematic diagram of NMP-PQ/PMMA for collinear holographic data storage.

Cited by 7 publications

References 63 publications

High-performance photopolymers for recording transmission/reflection holographic gratings

High-performance photopolymers for recording transmission/reflection holographic gratings

High-Performance Holographic Photopolymers Based on Low Refractive Index Host Matrices Containing Fluoroelastomers

Cross-Linking Degree Modulated Highly Sensitive Photopolymer for Holographic Data Storage by Introducing 1,3,5,7-Tetravinyl-1,3,5,7-tetramethylcyclotetrasiloxane

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