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No. Paper Title/Author/Journal name etc.
89 gSynthesis of Near-Infrared-Emitting@CdTe/CdSe/ZnSe/ZnS Heterostructure h

Yang Ping,
Norio Murase*, J. Nanosci. Nanotech., 14, 3147-3154(2014).
88 gIn Situ Photochemical Surface Passivation of CdSe/ZnS Quantum Dots for Quantitative Light Emission and Enhanced Photocurrent Response in Solar Cellsh

Moriniko Hamada, Norifumi Takenokoshi, Kenji Matozaki, Qi Feng,
Norio Murase, Shin-ichi Wakida, Shunsuke Nakanishi, Vasudevanpillai Biju *, J. Phys. Chem. C, 118, 2178-21876(2014).
87 gFormation Mechanism of Highly Luminescent Silica Capsules Incorporating Multiple Hydrophobic Quantum Dots with Various Emission Wavelengthsh

Chuliang Li,
Norio Murase*, J. Colloid Interf. Sci., 411, 82-91(2013).
86 gDirect Conversion of Silver Complexes to Nanoscale Hexagonal Columns on Copper Alloy for Plasmonic Applicationsh

Yuko S. Yamamoto, Katsuyuki Hasegawa, Yuuki Hasegawa, Naoshi Takahashi, Yasutaka Kitahama, Satoshi Fukuoka,
Norio Murase, Yoshinobu Baba, Yukihiro Ozaki and Tamitake Itoh*, Phys. Chem. Chem. Phys, 15, 14611-14615(2013).
85 gMueller matrix microscopic ellipsometerh

S. Otsuki
*, N. Murase, and H. Kano, Opt. Commun., 305, 194-200 (2013).
84 gNanomaterials formulations for photothermal and photodynamic therapy of cancerh

Biju Vasudevan Pillai,
Norio Murase, Morihiko Hamada, Edakkattuparambil Sidharthan ShibuCJ. Photochem. Photobiolog. C, 15, 53-72(2013).
83 gExcitation laser energy dependence of surface-enhanced fluorescence showing plasmon-induced ultrafast electronic dynamics in dye moleculesh

Tamitake Itoh
*, Yuko S. Yamamoto, Hiroharu Tamaru, Vasudevanpillai Biju, Norio Murase, and Yukihiro Ozaki, Phys. Rev. B, 87, 235408-235413(2013).
82 gPlasmonic staining of DNA molecules with photo-induced Ag nanoparticles monitored using dark-field microscopyh

Yuko S. Yamamoto
*, Ken Hirano, Tomomi Ishido, Takao Yasui, Norio Murase, Yoshinobu Baba and Tamitake Itoh, Phys. Chem. Chem. Phys, 15, 10316-10320(2013).
81 gBack focal plane microscopic ellipsometer with internal reflection geometryh
S. Otsuki
*, N. Murase, and H. Kano, Opt. Commun., 294, 24-28 (2013).
80 gPlasmonic Imaging of Brownian Motion of Single DNA Molecules Spontaneously Binding to Ag Nanoparticlesh

Ken Hirano, Tomomi Ishido, Yuko S. Yamamoto, Norio Murase, Masatoshi Ichikawa, Kenichi Yoshikawa, Yoshinobu Baba, and
Tamitake Itoh*, Nano Lett., 13, 1877-1882(2013) .
79 gCdSe/Cd1-xZnxS Core/Shell Quantum Dots with Tunable Emission: Growth and Morphology Evolutionh

Ping Yang, Shiquan Wang, Masanori Ando, and
N. Murase*, J. Mater. Sci., 48, 651-658(2013).
78 gFabrication of SiO2 Beads with High Concentrated Hydrophobic CdSe/CdxZn1-xS Quantum Dots Using Functional Alkoxidesh

Aiyu Zhang, Ping Yang,
Norio Murase*,J. Nanosci. and Nanotech., 13, 2993-2998(2013).
77 gSynthesis of Highly Luminescent CdTe0.5S0.5/CdxZn1?xS Core/Shell Quantum Dotsh

Shiquan Wang, Chunliang Li, and Norio Murase
*, Advanced Science, Engineering and Medicine, 4, 1-7(2012).
76 gNear-infrared emitting CdTe0.5Se0.5/Cd0.5Zn0.5S quantum dots: synthesis and bright luminescenceh

Ping Yang, Shiquan Wang,
Norio Murase*, Nanoscale Res. Lett., 7-615, 1-8(2012).
75 gDark-red-emitting CdTe/Cd1-xZnxS core/shell quantum dots: preparation and propertiesh

Ping Yang,
Norio Murase*, Luminescence, DOI: 10.1002/bio.2421 (2012).
74 gAu/SiO2/QD Core/Shell/Shell Nanostructures with Plasmonic Enhanced Photoluminescenceh

Ping Yang, Masanori Ando, Kazunori Kawasaki and
N. Murase*, J. Nanoparticle Res., 14:1025, 1-15(2012).
73 gElectroluminescence of Hybrid Self-Organised Fibres Incorporating CdTe Quantum Dotsh

Masanori Ando, Chie Hosokawa, Ping Yang, and
Norio Murase*, Australian J. Chem., 65, 1257-1259(2012).
72 gMultiple hydrophobic QDs assembled in SiO2 particles using silane coupling agenth

Ping Yang, Aiyu Zhang, Masanori Ando,
Norio Murase*, Colloid Surf. A, 397, 92-98 (2012).
71 gSiO2 particles with CdTe nanocrystals: surface modification and bioconjugation for labeling applicationsh

P. Yang
*, N. Murase, Q. Ma, Y. Cao, A. Zhang, R. Shi, Y. Zhu, J. Biomater. Tissue Eng., 1C185-193(2011).
70 gNanotubes with hybrid CdTe nanocrystals: Fabrication, property, and surface functional decoration for bioapplicationsh

P. Yang
*, N. Murase, Q. Ma, Y. Cao, A. Zhang, R. Shi, Y. Zhu, J. Wang, Crys. Eng. Commun., 13, 7276-7283(2011).
69 gSiO2 beads with quantum dots: Preparation and stability investigation for bioapplicationsh

P. Yang
*, N. Murase, Y. Jinghua, Colloid Surf. A, 385, 159-165(2011).
68 gAuger recombination dynamics in hybrid silica-coated CdTe nanocrystalsh

G. Sagarzazu, Y. Kobayashi,
N. Murase, P. Yang, N. Tamai*, Phys. Chem. Chem. Phys., 13, 3227-3230(2011).
67 gSilica encapsulation of highly luminescent hydrophobic QDs by two step microemulsion methodh
W. Shiquan, C. L. Li, P. Yang, M. Ando,
N. Murase*, Colloid Surf. AC395C 24-31(2011).
66 gFacile synthesis of highly luminescent CdSe/CdxZn1-xS quantum dots with widely tunable emission spectrah

P. Yang, M. Ando,
N. Murase*, Colloid Sur. A, 390C207-211(2011).
65 gHighly Luminescent CdSe/CdxZn1-xS Quantum Dots with Narrow Spectrum and Widely Tunable Wavelengthh

P. Yang, M. Ando, T. Taguchi,
N. Murase*, J. Phys. Chem. C, 115, 14455-14460 (2011).
64 gHighly Luminescent CdSe/CdxZn1-xS Quantum Dots Coated with Thickness-Controlled SiO2 Shell through Silanizationh

P. Yang, M. Ando,
N. Murase*, Langmuir, 27, 9535-9540(2011).
63 gSynthesis and Photoluminescence of Bright Water-soluble CdSe/ZnS Quantum Dots Overcoated by Hybrid Organic Shellh
H. S. Chen, M. Ando,
N. Murase*, Mater. Lett, 65, 3146-3149(2011).
62 gControlled self-assembly of hydrophobic quantum dots through silanizationh

P. Yang, M. Ando,
N. Murase*, J. Colloid Interf. Sci., 361, 9-15 (2011).
61 gHybrid SiO2-coated nanocrystal-based heterostructures: Assembly, morphology transition, and photoluminescence at room temperatureh
P. Yang, M. Ando,
N. Murase*, Colloid Surf. A, 384, 289-296 (2011).
60 gAqueous Preparation of Highly Luminescent CdSe/ZnS Nanocrystals Through Photochemical Processingh
C. L. Li, M. Ando, E. Sakai, H. Enomoto, T. Taguchi,
N. Murase*, Chem. Lett., 40, 258-260(2011).
59 gHighly luminescent SiO2 beads with multiple QDs: Preparation conditions and size distributionsh

P. Yang, M. Ando,
N. Murase*, J. Colloid Interf. Sci., 354, 455-460 (2011).
58 gVarious Au Nanoparticle Organizations Fabricated through SiO2 Monomer Induced Self-Assemblyh

P. Yang, M. Ando,
N. Murase*, Langmuir, 27, 895-901 (2010).
57 gEncapsulation of Multiple QDs into SiO2 Beads by Reflux without Degrading Initial Photoluminescence Propertiesh
P. Yang, M. Ando, T. Taguchi,
N. Murase*, J. Phys. Chem.C, 114, 20962-20967(2010).
56 gBright, Non-blinking, and Less-cytotoxic SiO2 Beads with Multiple CdSe/ZnS Nanocrystalsh

P. Yang,
N. Murase*, M. Suzuki, C. Hosokawa, K. Kawasaki, T. Kato, T. Taguchi, Chem. Commun., 46, 4595-4597 (2010).
55 gPreparation-Condition Dependence of Hybrid SiO2-Coated CdTe Nanocrystals with Intense and Tunable Photoluminescenceh

P. Yang,
N. Murase*, Adv. Funct. Mater., 20, 1258-1265 (2010).
54 gSize-Tunable Highly Luminescent SiO2 Particles Impregnated with Number-Adjusted CdTe Nanocrystalsh

P. Yang,
N. Murase*, ChemPhysChem, 11, 815-821 (2010).
53 gMorphology- and Color-Tunable Bright Fibers with High Concentration of CdTe Nanocrystals Assembled through Sol-Gel Reactionh
P. Yang, M. Ando,
N. Murase*, Adv. Mater., 21, 4016-4019 (2009).
52 g…•ªŽU«‚Ì‚æ‚¢ŒuŒõŽŽ–ò—pƒŠƒ“‰»ƒCƒ“ƒWƒEƒ€Œnƒiƒm—±Žq‚ÌŠJ”­h

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51 gPreparation of SiO2 beads with highly luminescent and magnetic nanocrystals via a modified reverse micelle processh

P. Yang, M. Ando, N. Murase
*, New J. Chem., 33, 1457-1461 (2009).
50 gAnomalous Photoluminescence in Silica-Coated Semiconductor Nanocrystals after Heat Treatmenth

N. Murase*, P. Yang, Small, 5, 800-803 (2009).
49 gPreparation and Photoluminescence of SiO2-CdTe Multilayer Film by Layer-by-Layer Self-Assemblyh

P. Yang,
N. Murase*, J. Phys. Conf. Ser., 152, 012009, 1-8 (2009).
48 gFormation of two types of highly luminescent SiO2 beads impregnated with multiple CdTe QDsh

P. Yang, M. Ando,
N. Murase*, New J. Chem., 33, 561-567 (2009).
47 gHighly Luminescent Water-Soluble InP/ZnS Nanocrystals Prepared via Reactive Phase Transfer and Photochemical Processingh
C. L. Li, M. Ando, H. Enomoto,
N. Murase*, J. Phys. Chem. C, 112, 20190-20199 (2008).
46 gFacile Synthesis of Highly Luminescent InP Nanocrystals Using a Solvothermal Routeh
C. L. Li, M. Ando, N. Murase
*, Chem. Lett., 37, 856-857 (2008).
45 gConsistent determination of photoluminescence quantum efficiency for phosphors in form of solution, plate, thin film, and powderh
N. Murase*, C. L. Li, J. Lumin., 128, 1896-1903 (2008).
44 gSynthesis of Cd-free water-soluble ZnSe1-xTex nanocrystals with high luminescence in the blue regionh

C. L. Li, K. Nishikawa, M. Ando, H. Enomoto,
N. Murase*, J. Colloid Interf. Sci., 321, 468-476 (2008).
43 gBlue-emitting small silica particles incorporating ZnSe-based nanocrystals prepared by reverse micelle methodh

M. Ando, C. L. Li, P. Yang,
N. Murase, J. Biomed. Biotech., 2007, ID52971, 1-7 (2007).
42 gEncapsulation of Emitting CdTe QDs within Silica Beads to Retain Initial Photoluminescence Efficiencyh

P. Yang, M. Ando,
N. Murase*, J. Colloid Interf. Sci., 316, 420-427 (2007).
41 gIntensely emitting CdTe nanocrystals retained initial photoluminescence efficiency in sol-gel derived Si1-xZrxO2 glassh

P. Yang,
N. Murase*, Appl. Phys. A, 89, 189-193 (2007).
40 gBlue-emitting Type-II Semiconductor Nanocrystals with High Efficiency Prepared by Aqueous Methodh

C. L. Li, K. Nishikawa, M. Ando, H. Enomoto,
N. Murase*, Chem. Lett., 36, 438-439 (2007).
39 gHighly luminescent water-soluble ZnSe nanocrystals and their incorporation in a glass matrixh

C. L. Li, K. Nishikawa, M. Ando, H. Enomoto,
N. Murase*, Colloid Surf. A, 294, 33-39 (2007).
38 gComparison of brightness of emitting semiconductor nanocrystals with that of rare-earth phosphorh

N. Murase*, C. L. Li, P. Yang, M. Ando, Jpn. J. Appl. Phys., 46, 7545-7548 (2007).
37 gEffect of chemical composition on luminescence of thiol-stabilized CdTe nanocrystalsh

N. Murase*, N. Gaponik, H. Weller, Nanoscale Res. Lett., 2-5, 230-234 (2007).
36 gˆÏˆõ’·‚̵‘ÒÈuŒoÏŽY‹ÆÈ‚Ì‹Zpí—ªƒ}ƒbƒv‚Æ‚»‚ÌŠˆ—p–@vh@

‘º£ŽŠ¶A“ú–{‰»Šw‰ïu‰»Šw‚ÆH‹Æv, 59, 775-776 (2006).
35 gQuantitative analysis of photo-degradation of emitting-CdTe nanocrystals dispersed in glass filmsh

N. Murase*, P. Yang, C. L. Li, J. Phys. Chem., B, 109, 17855-17860 (2005).
34 gHighly photoluminescent multilayer QD-glass films prepared by LbL self-assemblyh
P. Yang, C. L. Li,
N. Murase*, LangmuirC21C8913-8917(2005).
33 gSurfactant-dependent Photoluminescence of CdTe Nanocrystals in Aqueous Solutionh

C. L. Li,
N. Murase*, Chem. Lett., 34C92-93(2005).
32 gPreparation and Characterization of Glass Embedding Photoluminescent CdTe Nanocrystalsh

C. L. Li, M. Ando,
N. Murase*, J. Non-Crys. Solids, 342C32-38(2004).
31 gSynthesis of Highly Luminescent Glasses Incorporating CdTe-Nanocrystals through sol-gel processingh

C. L. Li,
N. Murase*, LangmuirC20C1-4(2004)
30 gPreparation and photoluminescence of water dispersible ZnSe nanocrystalsh

N. Murase*, M.Y. GaoCMater. Lett., 58C3898-3902(2004).
29 gRole of Eu ions and defect centers in formation of high temperature persistent spectral holes in glassh

N. Murase*, R. Nakamoto, J. Matsuoka, A. TomitaCJ. Lumin., 107C256-260(2004).
28 gFormation of Luminescent CdTe-Silica Nanoparticles through an Inverse Microemulsion Techniqueh

S. T. Selvan, M. Ando,
N. Murase*, Chem. Lett., 33, 434-435(2004).
27 gFabrication of highly luminescent glass incoprporating with CdTe nanocrystals by using siliane coupling agentsh

C. L. Li, M. Ando,
N. Murase*, Physca Status Solidi CC0C1250-1253(2003).
26 gSingle-particle spectroscopy of doped nanocrystals at room temperature. Te:CdSeh

N. Murase
*, Chem. Phys. Lett.C368C76-81(2003)
25 gSynthesis and studies of Cu2O quantum particlesh

K. Borgohain,
N. Murase, and S. Mahamuni*, J. Appl. Phys., 92, 1292-1297(2002).
24 gRelationship between room temperature hole-burning in glasses and doped Eu-ion concentrationh

N. Murase*, Y. Kawasaki, and A. Tomita, J. Lumin., 98, 301-308(2002).
23 gSynthesis and optical properties of water soluble ZnSe nanocrystalsh

N. Murase, M. Y. Gao, N. Gaponik , T. Yazawa and J. Feldmann, International J. Mod. Phys. B, 15, 3881-3884(2001).
22 gPartially reduced cuprous oxide nanoparticles formed in porous glass reaction fieldsh

N. Murase*, and T. Yazawa, J. Am. Cer. Soc., 84, 2269-2273(2001).
21 gLuminescence studies in BaFBr and BaFBr:Euh

A. R. Lakshmanan
*, N. Murase, T. Yazawa, J. Qiu,? T. Mitsuyu,? K. Hirao,? A. Tomita, W. Hoffmann, Radiation Measurements, 33, 119-127(2001).
20 gPreparation and fluorescence properties of Eu3+ doped strontium chloroapatite nanocrystalsh

N. Murase*, R. Jagannathan, Y. Kanematsu, Y. Kawasaki, A. Tomita, T.Yazawa, T. Kushida, J. Lumin., 87-89, 488-490(2000).
19 gFluorescence and EPR characteristics of Mn2+ doped ZnS nanocrystals prepared by aqueous colloidal methodh

N. Murase*, R. Jagannathan, Y. Kanematsu, M. Watanabe, A. Kurita, K. Hirata, T. Yazawa, T. Kushida, J.Phys. Chem.B, 103, 754-760(1999).
18 gPreparation of core-shell structured superfine-particle dispersed glassesh

N. Murase, K. Kuraoka, T. Yazawa, Mol. Cryst. & Liq. Cryst., 314&315, 273-278(1998).
17 gMelt-quenched KCl:Eu2+ films for photostimulated luminescence applicationsh

R. Jagannathan
*, M. Watanabe, N. Murase, A. Karthikeyani, Y. Kanematsu T. Kushida, J. Appl.Phys., 83, 911-915(1998).
16 "Non-Site-selective excitation of a doped dye and laser-induced hole filling in photochemical hole-burning"

N. Murase, and K. Horie, Mol. Cryst. & Liq. Cryst., 253, 59-67(1994).
15 "Relationship between molecular structure of a doped dye and the extent of laser-induced hole filling in photochemical hole-burning"

N. Murase, and K. Horie, Jpn. J. Appl. Phys., 33, 1053-1058(1994).
14 "Excitation processes of a dye doped into an amorphous material investigated by photochemical hole-burning"
N. Murase, and K. Horie, Jpn. J. Appl. Phys., 33, 1046-1052(1994).
13 "Quantitative analysis of wavelength and temperature dependence of laser-induced hole filling in photochemical hole-burning"
N. Murase, and K. Horie, Chem. Phys., 183, 135-146(1994).
12 "Laser-induced hole filling in photochemical hole-burning of porphine derivatives doped into poly(vinyl alcohol)"
N. Murase, and K. Horie, J. Photopolym. Sci. Tech., 6, 123-130(1993).
11 "Photochemical hole-burning in fluorine-containing polymers"
N. Murase, and K. Horie, J. Lumin., 56, 71-77(1993).
10 "Thermal excitation of dyes doped in amorphous material investigated by laser-induced hole filling in photochemical hole-burning"

N. Murase, and K. Horie,
Jpn. J. Appl. Phys., 32, L734-L737(1993).
9 "Mechanism of laser-induced hole filling in photochemical hole-burning"

N. Murase, and K. Horie, Chem. Phys. Lett., 209, 42-46(1993).
8 "Apparent and real values of photochemical hole-burning parameters. Sulfonated tetraphenylporphin doped in polyvinyl alcohol"

N. Murase, and K. Horie, J. Chem. Phys., 99, 6313-6320(1993).
7 "Theoretical and experimental study on the achievable recording density of photochemical hole-burning memory"

N. Murase, and K. Horie, Rep. Prog. Polym. Phys. Jpn., 35, 439-440(1992).
6 "Œõ‰»Šwƒz[ƒ‹ƒo[ƒjƒ“ƒOƒƒ‚ƒŠ‚É‚¨‚¯‚éŽÀŒ»‰Â”\‹L˜^–§“x"

‘º£ŽŠ¶A–x]ˆê”VAŽ›”öŒ³NA”ö“‡³Œ[A“ú–{‰»Šw‰ïŽA 1992, 1117-1124(1992).
5 "Theoretical study of the recording-density limit of photochemical hole-burning memory"

N. Murase, K. Horie, M. Terao, and M. Ojima, J. Opt. Soc. Am. B, 9, 998-1005(1992).
4 "Frequency dependence of quantum efficiency of hole formation in photochemical hole-burning for dye-doped polymer systems"

K. Horie, M. Ikemoto, T. Suzuki, S. Machida, and
N. Murase, Chem. Phys. Lett., 195, 563-567(1992).
3 "Molecular structure of the inner and outer conformers of methylhydrazine as determined by gas electron diffraction and ab initio MO calculation"

N. Murase, K. Yamanouchi, T. Egawa, and K. Kuchitsu, J. Mol. Struct., 242, 409-419(1991).
2 "Analysis of the inversion splitting in methylhydrazine"

N. Ohashi,
N. Murase, K. Yamanouchi, and K. Kuchitsu, J. Mol. Spectrosc., 138, 497-504(1989).
1 "Inversion and torsional motions of methylhydrazine studied by microwave and far-infrared spectroscopy and ab initio calculation"

N. Murase, K. Yamanouchi, M. Sugie, H. Takeo, C. Matsumura, Y. Hamada, M. Tsuboi, and K. Kuchitsu, J. Mol. Struct., 194, 301-316(1988).
No. Paper Title/Author/Journal name etc.

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