Evolution of organic-inorganic hybrid photopolymer material

HE Fei; HUANG Ming-ju

doi:10.3969/j.issn.1001-3806.2011.04.007

Volume 35 Issue 4

May 2013

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Citation:

Evolution of organic-inorganic hybrid photopolymer material

HE Fei,
HUANG Ming-ju^,

1.
Key Discipline Open Laboratory of Optoelectronic Information Materials and Devices, Optics and Photon Technology Institute Henan University, Kaifeng 475004, China

Corresponding author: HUANG Ming-ju, hmingju@163.com
Received Date: 2010-09-21
Accepted Date: 2010-10-08

Abstract

The incorporation of inorganic nanoparticles into photopolymer is a new way to produce organic-inorganic hybrid photopolymer holographic storage material.The progress from the conventional all-organic type to the organic-inorganic photopolymer was introduced.The nanoparticles uniformly dispersed in all-organic photopolymer significantly improve the performance of holographic recording material.The potential application advantages and the prospect of organic-inorganic hybrid photopolymer were forecasted.
- holography,
- photopolymer,
- inorganic nanoparticle,
- organic-inorganic hybrid

References

[1]	LI Sh J,JI C G.Theory and application of macromolecule photochemistry[M].Shanghai:Fudan University Press,2003:103-110(in Chinese).
[2]	YAO H W,HUANG M J,CHEN Z Y et al.Acrylamide-based photopolymer used for holograpluc recording[J].Proceedings of SPIE,2003,5060:199-202.
[3]	DENC Y X,LIU Zh X,FENG K C.Macromolecule chemistry,physics and application foundation[M].Beijing:Higher Education Press,1997:75-106(in Chinese).
[4]	LI L,XIANG H.Nano-materials and nano-technoiosy[M].Beijing:Chenucal Industry Ptess,2002:1-10(in Chinese).
[5]	CHIKAMA K,MASTUBARA K,OYAMA S,et al.Three-dimensional confocal Raman imaging of volume holograms formed in ZrO2 nanoparticle-photopolymer composite materials[J].Applied Physics,2008,103(11):113108/1-113108/6.
[6]	TOMITA Y,CHIKAMA K,NOHARA Y,et al.Two dimensional imaging of atonuc distribution morphology created by holographically induced mass transfer of monomer molecules and nanoparticlea in a silica-nanoparticle-dispersed photopolymer film[J].Optics Letters,2006,31(10):1402-1404.
[7]	TOMITA Y,SUZUKI N,CHIKAMA K,Holographic manipulation of nanoparticle distribution morphology in nanoparticle-dispersed photopolymers[J].Optics Letters,2005,30(8):839-841.
[8]	VAIA R,DENNIS C,NATARAJAN L,a al.One step,nucrometerscale organization of nano-and mesoparticles using holographic pho topolymerisation:a generic technique[J].Advanced Materials,2001,13(21):1570-1574.
[9]	SUZUKI N,TOMITA Y,KOJIMA T,et al.Holographic recording in TiO2 nanoparticle-dispersed methacrylate photopolymer films[J].Applied Physics Letters,2002,81(22):4121-4123.
[10]	SUZUKI N,TOMITA Y.Silica-nanoparticle-dispersed methacrylate photopolymers with net diffraction efficiency near 100%[J].Applied Opties,2004,43(10):2125-2129.
[11]	SANCHEZ C,ESCUTI M,HEESH C,et al.TiO2 nanoparticle-photopolymer composites for volume holographic recording[J].Advanced Functional Materials,2005,15(10):1623-1629.
[12]	SUZUKI N,TOMITA Y,OHMORI K,et al.Highly rransparent ZrO2 nanoparticles-dispersed acryWe photopolymers for volume holographic recording[J].Optics Express,2006,14(26):12712-12719.
[13]	KIM W,JEONG Y,PARK J.Nanoparticle-induced refractive index modulation of organic-inorgnic hybnd photopolymer[J].Optics Express,2006,14(20):8967-8973.
[14]	SAKHNO O,GOLDENBERG L,STUMPE J,et al.Surface modified ZrO2 and TiO2 nanoparticles embedded inorganic photopolymers for highly effective and UV-stable volume holograms[J].Nanotechnology,2007,18(21):105704-105709.
[15]	NAYDENOVA I,SHERIF H,MINTOVA S,et al.Holographic recording in nanoparticle-doped photopolymer[J].Proceedings of SPIE,2006,6252:6252/1-6252/6.
[16]	GOLDENBERG L,SAKHNO O,SMIRMOVA T,et al.Holographic composites with gold nanoparticles:nanoparticles promote polymer segregation[J].Chenucal Material,2008,20(14):4619-4627.
[17]	KOGELNIK H.Coupled wave theory for thick hologram gratings[J].The Bell System Technieal Journal,1969,48(21):2909-2947.
[18]	NAYDENOVA I,MINTOVA S,MARTIN S,et al.Nanocomposites for novel holographic applications[EB/OL].[2008-02-05].https://spie.org/x19336.xml? Article ID=x19336.
[19]	KIM W S,JEONC Y C,RARK J K,et al.Organic-inorganic hybrid photopolymer with reduced volume shrinkage[J].Applied Physics Letters,2005,87(1):012106/1-012106/3.
[20]	JOHN B M,JOSEPH R,SREEKUMAR K,et al.Copper doped methylene blue sensitized poly(vinyl alcohol)-acrylamide films for state diffraction efficiency[J].Applied Physics,2006,45(1):8686-8690.
[21]	PRAMITHA V,NIMMI K P,SUBRAMANYAN N V,et al.Silverdoped photopolymer media for holograpluc recording[J].AppliedPhysics,2009,48(12):2255-2261.
[22]	KUGE K,NAKAO T,GOTO Y,et al.Preparation of a hologram composed of a striped gold layer using photograpluc materials[J].Applied Physics,2006,100(1):013102/1-013102/5.
[23]	LOUGNOT D J,TURCK C,LEROY-GAREL C.New holographic recording materials based on dual-cure photopolymer systems[J].Proceedings of SPIE,1998,3417:165-171.
[24]	FIMIA A,LOPEZ N,MATEOS F,et al.Elinunatiort of oxygen inhibition in photopolymer systems used as hologaphic recording materials[J].Modern Optics,1993,40(4):699-706.
[25]	LINC F R,DAN L,ZHOU H,et al.Influence of thiol on the holographic properties of silica nanoparticle-embedded acrylate photopolymer films[J].Optical Materials,2008,31(36):206-208.
[26]	LING F R,DAN L,YAO J Q,et al.Effectof thiol on the holographic properties of TiOsub>2 nanoparticle dispersed acrylate photopolymer films[J].Journal of Optics,2008,A10(7):075303-075307.
[27]	XU W L.Organic chemistry[M].Beijing:Science Press,2008:179(in Chinese).
[28]	LI Sh J,JI C G.Theory and application of macromolecule photochenustry[M].Shanghai:Fudan UniveHity Press,2003:207(in Chinese).
[29]	HKRUG H,SCHMIDT H.Organic-inorganic nanocomposites for micro optical applications[J].New Journal Chemistry,1994,18(10):1125-1134.
[30]	BABEVA T,TODOROV R,MINTOVA S,et al.Optical properties of silica MFI doped acrylamide-based photopolymer[J].Journal of Optics,2009,A11(2):024015/1-024015/8.
[31]	LEITE E,NAYDENOVA I,PANDEY N,et al.Investigation of the light induced redistribution of zeolite Beta nanoparticles in an acrylamide-based photopolymer[J].Journal of Optics,2009,A11(2):024016/1-024016/9.

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通讯作者: 陈斌, bchen63@163.com

1.
沈阳化工大学材料科学与工程学院沈阳 110142

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Evolution of organic-inorganic hybrid photopolymer material

Corresponding author: HUANG Ming-ju, hmingju@163.com

1. Key Discipline Open Laboratory of Optoelectronic Information Materials and Devices, Optics and Photon Technology Institute Henan University, Kaifeng 475004, China

Received Date: 2010-09-21

Accepted Date: 2010-10-08

Available Online: 2011-07-25

Abstract: The incorporation of inorganic nanoparticles into photopolymer is a new way to produce organic-inorganic hybrid photopolymer holographic storage material.The progress from the conventional all-organic type to the organic-inorganic photopolymer was introduced.The nanoparticles uniformly dispersed in all-organic photopolymer significantly improve the performance of holographic recording material.The potential application advantages and the prospect of organic-inorganic hybrid photopolymer were forecasted.

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Reference (31)

[1]	LI Sh J,JI C G.Theory and application of macromolecule photochemistry[M].Shanghai:Fudan University Press,2003:103-110(in Chinese).
[2]	YAO H W,HUANG M J,CHEN Z Y et al.Acrylamide-based photopolymer used for holograpluc recording[J].Proceedings of SPIE,2003,5060:199-202.
[3]	DENC Y X,LIU Zh X,FENG K C.Macromolecule chemistry,physics and application foundation[M].Beijing:Higher Education Press,1997:75-106(in Chinese).
[4]	LI L,XIANG H.Nano-materials and nano-technoiosy[M].Beijing:Chenucal Industry Ptess,2002:1-10(in Chinese).
[5]	CHIKAMA K,MASTUBARA K,OYAMA S,et al.Three-dimensional confocal Raman imaging of volume holograms formed in ZrO2 nanoparticle-photopolymer composite materials[J].Applied Physics,2008,103(11):113108/1-113108/6.
[6]	TOMITA Y,CHIKAMA K,NOHARA Y,et al.Two dimensional imaging of atonuc distribution morphology created by holographically induced mass transfer of monomer molecules and nanoparticlea in a silica-nanoparticle-dispersed photopolymer film[J].Optics Letters,2006,31(10):1402-1404.
[7]	TOMITA Y,SUZUKI N,CHIKAMA K,Holographic manipulation of nanoparticle distribution morphology in nanoparticle-dispersed photopolymers[J].Optics Letters,2005,30(8):839-841.
[8]	VAIA R,DENNIS C,NATARAJAN L,a al.One step,nucrometerscale organization of nano-and mesoparticles using holographic pho topolymerisation:a generic technique[J].Advanced Materials,2001,13(21):1570-1574.
[9]	SUZUKI N,TOMITA Y,KOJIMA T,et al.Holographic recording in TiO2 nanoparticle-dispersed methacrylate photopolymer films[J].Applied Physics Letters,2002,81(22):4121-4123.
[10]	SUZUKI N,TOMITA Y.Silica-nanoparticle-dispersed methacrylate photopolymers with net diffraction efficiency near 100%[J].Applied Opties,2004,43(10):2125-2129.
[11]	SANCHEZ C,ESCUTI M,HEESH C,et al.TiO2 nanoparticle-photopolymer composites for volume holographic recording[J].Advanced Functional Materials,2005,15(10):1623-1629.
[12]	SUZUKI N,TOMITA Y,OHMORI K,et al.Highly rransparent ZrO2 nanoparticles-dispersed acryWe photopolymers for volume holographic recording[J].Optics Express,2006,14(26):12712-12719.
[13]	KIM W,JEONG Y,PARK J.Nanoparticle-induced refractive index modulation of organic-inorgnic hybnd photopolymer[J].Optics Express,2006,14(20):8967-8973.
[14]	SAKHNO O,GOLDENBERG L,STUMPE J,et al.Surface modified ZrO2 and TiO2 nanoparticles embedded inorganic photopolymers for highly effective and UV-stable volume holograms[J].Nanotechnology,2007,18(21):105704-105709.
[15]	NAYDENOVA I,SHERIF H,MINTOVA S,et al.Holographic recording in nanoparticle-doped photopolymer[J].Proceedings of SPIE,2006,6252:6252/1-6252/6.
[16]	GOLDENBERG L,SAKHNO O,SMIRMOVA T,et al.Holographic composites with gold nanoparticles:nanoparticles promote polymer segregation[J].Chenucal Material,2008,20(14):4619-4627.
[17]	KOGELNIK H.Coupled wave theory for thick hologram gratings[J].The Bell System Technieal Journal,1969,48(21):2909-2947.
[18]	NAYDENOVA I,MINTOVA S,MARTIN S,et al.Nanocomposites for novel holographic applications[EB/OL].[2008-02-05].https://spie.org/x19336.xml? Article ID=x19336.
[19]	KIM W S,JEONC Y C,RARK J K,et al.Organic-inorganic hybrid photopolymer with reduced volume shrinkage[J].Applied Physics Letters,2005,87(1):012106/1-012106/3.
[20]	JOHN B M,JOSEPH R,SREEKUMAR K,et al.Copper doped methylene blue sensitized poly(vinyl alcohol)-acrylamide films for state diffraction efficiency[J].Applied Physics,2006,45(1):8686-8690.
[21]	PRAMITHA V,NIMMI K P,SUBRAMANYAN N V,et al.Silverdoped photopolymer media for holograpluc recording[J].AppliedPhysics,2009,48(12):2255-2261.
[22]	KUGE K,NAKAO T,GOTO Y,et al.Preparation of a hologram composed of a striped gold layer using photograpluc materials[J].Applied Physics,2006,100(1):013102/1-013102/5.
[23]	LOUGNOT D J,TURCK C,LEROY-GAREL C.New holographic recording materials based on dual-cure photopolymer systems[J].Proceedings of SPIE,1998,3417:165-171.
[24]	FIMIA A,LOPEZ N,MATEOS F,et al.Elinunatiort of oxygen inhibition in photopolymer systems used as hologaphic recording materials[J].Modern Optics,1993,40(4):699-706.
[25]	LINC F R,DAN L,ZHOU H,et al.Influence of thiol on the holographic properties of silica nanoparticle-embedded acrylate photopolymer films[J].Optical Materials,2008,31(36):206-208.
[26]	LING F R,DAN L,YAO J Q,et al.Effectof thiol on the holographic properties of TiOsub>2 nanoparticle dispersed acrylate photopolymer films[J].Journal of Optics,2008,A10(7):075303-075307.
[27]	XU W L.Organic chemistry[M].Beijing:Science Press,2008:179(in Chinese).
[28]	LI Sh J,JI C G.Theory and application of macromolecule photochenustry[M].Shanghai:Fudan UniveHity Press,2003:207(in Chinese).
[29]	HKRUG H,SCHMIDT H.Organic-inorganic nanocomposites for micro optical applications[J].New Journal Chemistry,1994,18(10):1125-1134.
[30]	BABEVA T,TODOROV R,MINTOVA S,et al.Optical properties of silica MFI doped acrylamide-based photopolymer[J].Journal of Optics,2009,A11(2):024015/1-024015/8.
[31]	LEITE E,NAYDENOVA I,PANDEY N,et al.Investigation of the light induced redistribution of zeolite Beta nanoparticles in an acrylamide-based photopolymer[J].Journal of Optics,2009,A11(2):024016/1-024016/9.

Evolution of organic-inorganic hybrid photopolymer material

Abstract

References

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通讯作者: 陈斌, bchen63@163.com

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