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Items: 1 to 20 of 128

1.

Nd(3+)-sensitized upconversion nanophosphors: efficient in vivo bioimaging probes with minimized heating effect.

Wang YF, Liu GY, Sun LD, Xiao JW, Zhou JC, Yan CH.

ACS Nano. 2013 Aug 27;7(8):7200-6. doi: 10.1021/nn402601d. Epub 2013 Jul 23.

PMID:
23869772
2.

Stokes emission in GdF₃:Nd³⁺ nanoparticles for bioimaging probes.

Pokhrel M, Mimun LC, Yust B, Kumar GA, Dhanale A, Tang L, Sardar DK.

Nanoscale. 2014;6(3):1667-74. doi: 10.1039/c3nr03317a.

3.

Using 915 nm laser excited Tm³+/Er³+/Ho³+- doped NaYbF4 upconversion nanoparticles for in vitro and deeper in vivo bioimaging without overheating irradiation.

Zhan Q, Qian J, Liang H, Somesfalean G, Wang D, He S, Zhang Z, Andersson-Engels S.

ACS Nano. 2011 May 24;5(5):3744-57. doi: 10.1021/nn200110j. Epub 2011 May 2.

PMID:
21513307
4.

Nd3+ sensitized up/down converting dual-mode nanomaterials for efficient in-vitro and in-vivo bioimaging excited at 800 nm.

Li X, Wang R, Zhang F, Zhou L, Shen D, Yao C, Zhao D.

Sci Rep. 2013 Dec 18;3:3536. doi: 10.1038/srep03536.

5.

808 nm driven Nd3+-sensitized upconversion nanostructures for photodynamic therapy and simultaneous fluorescence imaging.

Wang D, Xue B, Kong X, Tu L, Liu X, Zhang Y, Chang Y, Luo Y, Zhao H, Zhang H.

Nanoscale. 2015 Jan 7;7(1):190-7. doi: 10.1039/c4nr04953e.

PMID:
25406514
6.

Core/shell NaGdF4:Nd(3+)/NaGdF4 nanocrystals with efficient near-infrared to near-infrared downconversion photoluminescence for bioimaging applications.

Chen G, Ohulchanskyy TY, Liu S, Law WC, Wu F, Swihart MT, Agren H, Prasad PN.

ACS Nano. 2012 Apr 24;6(4):2969-77. doi: 10.1021/nn2042362. Epub 2012 Mar 14.

7.

Isoquinoline-based lanthanide complexes: bright NIR optical probes and efficient MRI agents.

Caillé F, Bonnet CS, Buron F, Villette S, Helm L, Petoud S, Suzenet F, Tóth E.

Inorg Chem. 2012 Feb 20;51(4):2522-32. doi: 10.1021/ic202446e. Epub 2012 Jan 10.

PMID:
22233349
8.

Optically investigating Nd(3+)-Yb(3+) cascade sensitized upconversion nanoparticles for high resolution, rapid scanning, deep and damage-free bio-imaging.

Zhao Y, Zhan Q, Liu J, He S.

Biomed Opt Express. 2015 Feb 18;6(3):838-48. doi: 10.1364/BOE.6.000838. eCollection 2015 Mar 1.

9.

A cyanine-modified nanosystem for in vivo upconversion luminescence bioimaging of methylmercury.

Liu Y, Chen M, Cao T, Sun Y, Li C, Liu Q, Yang T, Yao L, Feng W, Li F.

J Am Chem Soc. 2013 Jul 3;135(26):9869-76. doi: 10.1021/ja403798m. Epub 2013 Jun 25.

PMID:
23763640
10.

Correlative cathodoluminescence and near-infrared fluorescence imaging for bridging from nanometer to millimeter scale bioimaging.

Niioka H, Fukushima S, Ichimiya M, Ashida M, Miyake J, Araki T, Hashimoto M.

Microscopy (Oxf). 2014 Nov;63 Suppl 1:i29. doi: 10.1093/jmicro/dfu073.

PMID:
25359828
11.

Elimination of photon quenching by a transition layer to fabricate a quenching-shield sandwich structure for 800 nm excited upconversion luminescence of Nd3+-sensitized nanoparticles.

Zhong Y, Tian G, Gu Z, Yang Y, Gu L, Zhao Y, Ma Y, Yao J.

Adv Mater. 2014 May;26(18):2831-7. doi: 10.1002/adma.201304903. Epub 2013 Dec 12.

PMID:
24338994
12.

Dual-modality in vivo imaging using rare-earth nanocrystals with near-infrared to near-infrared (NIR-to-NIR) upconversion luminescence and magnetic resonance properties.

Zhou J, Sun Y, Du X, Xiong L, Hu H, Li F.

Biomaterials. 2010 Apr;31(12):3287-95. doi: 10.1016/j.biomaterials.2010.01.040. Epub 2010 Feb 4.

PMID:
20132982
13.

Efficient Nd(3+)-->Yb(3+) energy transfer in 0.8CaSiO(3)-0.2Ca(3)(PO(4))(2) eutectic glass.

Balda R, Peña JI, Arriandiaga MA, Fernández J.

Opt Express. 2010 Jun 21;18(13):13842-50. doi: 10.1364/OE.18.013842.

PMID:
20588517
14.

Simultaneous synthesis and amine-functionalization of single-phase BaYF5:Yb/Er nanoprobe for dual-modal in vivo upconversion fluorescence and long-lasting X-ray computed tomography imaging.

Liu H, Lu W, Wang H, Rao L, Yi Z, Zeng S, Hao J.

Nanoscale. 2013 Jul 7;5(13):6023-9. doi: 10.1039/c3nr00999h. Epub 2013 May 28.

PMID:
23715609
15.

Long-term in vivo biodistribution imaging and toxicity of polyacrylic acid-coated upconversion nanophosphors.

Xiong L, Yang T, Yang Y, Xu C, Li F.

Biomaterials. 2010 Sep;31(27):7078-85. doi: 10.1016/j.biomaterials.2010.05.065. Epub 2010 Jun 17.

PMID:
20619791
16.

(α-NaYbF4:Tm(3+))/CaF2 core/shell nanoparticles with efficient near-infrared to near-infrared upconversion for high-contrast deep tissue bioimaging.

Chen G, Shen J, Ohulchanskyy TY, Patel NJ, Kutikov A, Li Z, Song J, Pandey RK, Agren H, Prasad PN, Han G.

ACS Nano. 2012 Sep 25;6(9):8280-7. Epub 2012 Sep 4.

17.

An Nd³⁺-sensitized upconversion nanophosphor modified with a cyanine dye for the ratiometric upconversion luminescence bioimaging of hypochlorite.

Zou X, Liu Y, Zhu X, Chen M, Yao L, Feng W, Li F.

Nanoscale. 2015 Mar 7;7(9):4105-13. doi: 10.1039/c4nr06407k.

PMID:
25666904
18.

Upconversion luminescence imaging of cells and small animals.

Liu Q, Feng W, Yang T, Yi T, Li F.

Nat Protoc. 2013 Oct;8(10):2033-44. doi: 10.1038/nprot.2013.114. Epub 2013 Sep 26.

PMID:
24071909
19.

Nanophotonics and nanochemistry: controlling the excitation dynamics for frequency up- and down-conversion in lanthanide-doped nanoparticles.

Chen G, Yang C, Prasad PN.

Acc Chem Res. 2013 Jul 16;46(7):1474-86. doi: 10.1021/ar300270y. Epub 2013 Jan 22.

PMID:
23339661
20.

Direct imaging the upconversion nanocrystal core/shell structure at the subnanometer level: shell thickness dependence in upconverting optical properties.

Zhang F, Che R, Li X, Yao C, Yang J, Shen D, Hu P, Li W, Zhao D.

Nano Lett. 2012 Jun 13;12(6):2852-8. doi: 10.1021/nl300421n. Epub 2012 May 3.

PMID:
22545710
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