Top

Journal of Polymer Research

Published in:

01-07-2020 | ORIGINAL PAPER

Formation of holographic lens upon non-stationary photopolymerization

Authors: Sergey Nickolaevich Mensov, Yuri Victorovich Polushtaytsev

Published in: Journal of Polymer Research | Issue 7/2020

Activate our intelligent search to find suitable subject content or patents.

search-config

AI-assisted search

Off

Abstract

The possibility of optical creation of quasi-periodical film structures in transparent photo-recording media by discrete moving the illumination boundary along the polymerized layer is considered. The dependence of the formed profile of the refractive index on the parameters of the photopolymer medium and the acting radiation is studied. The process of a holographic lens formation by visible light was experimentally implemented in a photopolymerizable composition based on OCM-2 with methanol.

previous article Investigation of microstructure in poly(methyl methacrylate) prepared via ambient temperature ARGET-ATRP: a combined approach of 1D and 2D NMR spectroscopy

next article Selective removal of tetracycline residue in milk samples using a molecularly imprinted polymer

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

über 102.000 Bücher
über 537 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Finance + Banking
Management + Führung
Marketing + Vertrieb
Maschinenbau + Werkstoffe
Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

inform now

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

über 67.000 Bücher
über 390 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Maschinenbau + Werkstoffe

Jetzt Wissensvorsprung sichern!

inform now

Mensov SN, Polushtaytsev YV (2013) Stable holographic lenses formation from multi-component photopolymerizable compositions. Opt Mem Neural Netw 22(2):90–96

Obukhovskii VV, Smirnova TN (1993) Model of holographic recording on photopolymerizing composites. Opt Spectrosc 74(4):462–466

Baten’kin MA, Mensov SN, Romanov AV (2008) The use of low-viscosity neutral components for increasing the diffraction efficiency of photopolymer holograms. Opt Spectrosc 104(1):135–139

Veniaminov AV, Mahilny VV (2013) Holographic polymer materials with diffusion development: principles, arrangement, investigation, and applications. Opt Spectrosc 115(6):906–930

Tomita Y, Hata E, Momose K, Takayama S, Liu X, Chikama K, Klepp J, Pruner C, Fally M (2016) Photopolymerizable nanocomposite photonic materials and their holographic applications in light and neutron optics. J Mod Opt 63(S3):S1–S31PubMedPubMedCentral

Baten'kin M, Mensov SN, Romanov AV (2008) Optical formation of relief holograms from photopolymerizing composites with nonpolymerization-capable additives. J Opt Technol 75(5):311–313

Ganzherli NM, Gulyaev SN, Gurin AS, Kramushchenko DD, Maurer IA, Chernykh DF (2009) Formation of random and regular relief-phase structures on silver halide photographic emulsions by holographic methods. Tech Phys 54(7):1002–1006

Mazzulla A, Pagliusi P, Provenzano C, Russo G, Carbone G, Cipparrone G (2004) Surface relief gratings on polymer dispersed liquid crystalsby polarization holography. Appl Phys Lett 85(13):2505–2507

Evtikhiev NN, Evtikhieva OA, Kompanets IN, Krasnov AE, Kul’chin YN, Odinokov SB, Rinkevichus BS (2000) Information optics. MEI, Moscow

10.

Born M, Wolf E (1999) Principles of Optics. Cambridge University, Cambridge

11.

Smirnova TN, Kokhtich LM, Sakhno OV, Stumpe J (2011) Holographic nanocomposites for recording polymer-nanoparticle periodic structures. Opt Spectrosc 110(1):129[part I]–137[part II]

12.

Veltri A, Caputo R, Umeton C, Sukhov AV (2004) Model for the photoinduced formation of diffraction gratings in liquid-crystalline composite materials. Appl Phys Lett 84(18):3492–3494

13.

Matyunin SA, Paranin VD (2011) Amplitude-phase controlled diffraction optical elements. Foton-Express 94(6):174–175

14.

Aristov VV, Babin SV, Erko AI (1990) Microelectronic technology for computer optics. Comput Opt 2(2):157–160

15.

Akayev AA, Mayorov SA (1988) Optical methods of information processing. Vyssh, Shkola, Moscow

16.

Ostrovsky YI (1977) Holography and Its Application. Mir Publishers, Moscow

17.

Dzubenko AG (1976) Application of holography in engineering. Znaniye, Moscow

18.

Landsberg GS (2003) Optics. Physmatlit, Moscow

19.

Tolstik E, Egorova E, Hoff D, Matusevich V, Yakimtsova LB, Matusevich YI, Kowarschik R, Krul LP (2012) New thermostable copolymers for holographic storage based on methylmethacrylate with methacrylamide or methacrylic acid. J Polym Res 19:9742

20.

Liu J-H, Wu F-T (2004) Holographic Gratings in Photosensitive Acrylic Polymers with High Refractive Index Diphenyl Sulfide. J Polym Res 11(1):43–51

21.

Dovol’nov EA, Sharangovich SN (2008) Nonlinear model of sequential recording of superimposed holographic gratings in photopolymer composites with allowance for the self-diffraction from spatial harmonics. Opt Spectrosc 105(2):310–319

22.

Baten’kin MA, Mensov SN (2015) Optical formation of polymeric materials with heterogeneously distributed nanopores from a photopolymerizable composite. J Polym Res 22(4):64

23.

Baten’kin MA, Konev AN, Mensov SN, Chesnokov SA (2011) Formation of heterogeneous polymer structures during photoinduced crosslinking of olygo(ester acrylates) in the presence of a nonpolymerizable component. Polym Sci Ser A 53(7):558–568

24.

Sakhno OV, Goldenberg LM, Stumpe J, Smirnova TN (2009) Effective volume holographic structures based on organic-inorganic photopolymer nanocomposites. J Opt A Pure Appl Opt 11(2):024013

25.

Pikas DJ, Kirkpatrick SM, Tomlin DW, Natarajan L, Tondiglia V, Bunning TJ (2002) Electrically switchable reflection holograms formed using two-photon photopolymerization. Appl Phys A Mater Sci Process 74(6):767–772

26.

Mensov SN, Polushtaitsev YV (2012) Optical formation of stable waveguiding structures from a photopolymerisable composition with a nonpolymerisable component. Quantum Electron 42:545–550

27.

Caulfield HJ (1979) Handbook of optical holography. Academic, New York

28.

Collier RJ, Burckhardt C, Lin LH (1971) Optical holography. Academic, New York

29.

Ginzburg VM (1974) Holography, methods and apparatus. Sov. Radio, Moscow

30.

Mensov SN, Morozova MA, Polushtaytsev YV (2018) Optical formation and transport of a local region with an increased content of a neutral component in a photopolymerizable composite layer. JETP Lett 108(8):553–556

31.

Baten’kin MA, Mensov SN, Morozova MA, Polushtaytsev YV (2015) Neutral component localization in the volume of photopolymerizable medium by the counter moving boundaries of initiating radiation action. J Polym Res 22(12):247

32.

Polushtaytsev YV, Mensov SN (2019) Formation of gradient polymer lenses by non-stationary luminous flux. J Polym Res 26(12):273

33.

Mensov SN, Morozova MA, Polushtaytsev YV (2016) Formation of periodic phase structures in a photopolymerizable layer by nonstationary light beams. Opt Spectrosc 121(3):438–444

34.

Davtyan SP, Berlin AA, Tonoyan AO (2011) Advances and problems of frontal polymerization processes. Rev J Chem 1(1):56–92

35.

Yao KZ, McAuley KB (2001) Simulation of continuous solid-phase polymerization of nylon 6,6 (II): processes with moving bed level and changing particle properties. Chem Eng Sci 56:5327–5342

36.

Kholpanov LP, Zakiev SE, Pomogailo AD (2006) Two-phase frontal polymerization of metal-containing monomers. Polymer Sci Ser A 48(1):11–17

37.

Huh DS, Kim MS, Choe SJ (2001) Polymerization of diacrylate by thermal front. Bull Kor Chem Soc 22(7):769–771

38.

Asakura K, Nihei E, Harasawa H, Ikumo A, Osanai S (2003) Spontaneous frontal polymerization: propagating front spontaneously generated by locally autoaccelerated free-radical polymerization. ACS Symp Ser 869:135–146

39.

Pojman JA, Ilyashenko VM, Khan AM (1996) Free-radical frontal polymerization: Self-propagating thermal reaction waves. J Chem Soc Faraday Trans 96(16):2825–2837

40.

Treushnikov VM, Viktorova EA (2015) Principles of manufacturing biocompatible and biostable polymer implants (review). Sovremennye Tehnologii v Med 7(3):149–171

41.

Lenkova GA, Korolkov VP, Koronkevich VP, Nasyrov RK, Gutman AS, Iskakov IA, Treushnikov VM (2008) Diffractive-refractive intraocular lenses. Optoelectron Instrument Data Proc 44(4):342–352

42.

Chesnokov SA, Treushnikov VM, Chechet YV, Cherkasov VK, Mamysheva ON (2008) General conditions and experimental design of sustained frontal photopolymerization in photopolymerizable liquid compositions. Polymer Sci Ser A 50(3):291–298

43.

Davtyan SP, Tonoyan AO, Gevorkyan LA, Berlin AA (2012) Stationary state of frontal radical polymerization processes. Polymer Sci Ser B 54(3–4):193–196

44.

Chesnokov SA, Cherkasov VK, Abakumov GA, Mamysheva ON, Chechet YV, Nevodchikov VI (2001) Influence of o-benzoquinone nature on initiation of radical polymerization by the o-benzoquinone – tert-amine system. Russ Chem Bull 50(12):2366–2371

Title: Formation of holographic lens upon non-stationary photopolymerization
Authors: Sergey Nickolaevich Mensov
Yuri Victorovich Polushtaytsev
Publication date: 01-07-2020
Publisher: Springer Netherlands
Published in: Journal of Polymer Research / Issue 7/2020
Print ISSN: 1022-9760
Electronic ISSN: 1572-8935
DOI: https://doi.org/10.1007/s10965-020-02113-5

Springer Professional

Abstract

Please log in to get access to your license.

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Springer Professional "Technik"

Other articles of this Issue 7/2020

Investigation of microstructure in poly(methyl methacrylate) prepared via ambient temperature ARGET-ATRP: a combined approach of 1D and 2D NMR spectroscopy

Synthesis and characterization of cross-linked epoxy resin beads by suspension polymerization technique

One-step hydroxylation of rubber seed oil and synthesis of green polyurethane networks thereof

Dendrimer-like AB2-type star polymers as nanocarriers for doxorubicin delivery to breast cancer cells: synthesis, characterization, in-vitro release and cytotoxicity studies

Selective removal of tetracycline residue in milk samples using a molecularly imprinted polymer

Recent advancements in manufacturing technologies of microcellular polymers: a review

Premium Partners