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203297 Aldrich

Gadolinium(III) oxide

powder, ≥99.99% trace metals basis

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Properties

Related Categories Catalysis and Inorganic Chemistry, Chemical Synthesis, Gadolinium, Materials Science, Metal and Ceramic Science,
assay   ≥99.99% trace metals basis
form   powder
mp   2330 °C(lit.)
density   7.407 g/mL at 20 °C(lit.)

Description

Packaging

5 g in poly bottle

Price and Availability

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powder, 99.9% trace metals basis

Safety & Documentation

Safety Information

Symbol 
GHS07  GHS07
Signal word 
Warning
Hazard statements 
Precautionary statements 
WGK Germany 
1

Protocols & Articles

Articles

Metal Hydrides for NiMH Battery Applications

Rechargeable solid-state batteries are becoming increasingly important due to wide-spread use in computers, portable electronics, and vehicular applications. The Partnership for a New Generation of V...
Dhanesh Chandra,* Wen-Ming Chien and Anjali Talekar
Material Matters Volume 6 Article 2
Keywords: Absorption, Applications, Automotive, Capillary electrophoresis, Combustion, Degradations, Electrochemical analysis, Electronics, Environmental, Help, Ion-exchange chromatography, Phase transitions, Precipitation, Purification, Separation, Substitutions, Type

Superconductors

Superconductors are materials that exhibit zero electrical resistance below a certain temperature defined as the critical temperature (TC). Prior to 1986, the highest TC reported was 20 K for Nb3Ge a...
Luke Grocholl
Chemfiles Volume 5 Article 13
Keywords: Materials Science

Peer-Reviewed Papers

References

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Cytotoxic and genotoxic characterization of titanium dioxide, gadolinium oxide, and poly(lactic-co-glycolic acid) nanoparticles in human fibroblasts. Setyawati MI, Khoo PK, Eng BH, et al. J. Biomed. Mater. Res. A 101(3), 633-40, (2013)

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Ultra-small gadolinium oxide nanoparticles to image brain cancer cells in vivo with MRI. Faucher L, Guay-Bégin AA, Lagueux J, et al. Contrast Media Mol. Imaging 6(4), 209-18, (2011)

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Rapid synthesis of PEGylated ultrasmall gadolinium oxide nanoparticles for cell labeling and tracking with MRI. Faucher L, Tremblay M, Lagueux J, et al. ACS Appl. Mater. Interfaces 4(9), 4506-15, (2012)

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Human aortic endothelial cell labeling with positive contrast gadolinium oxide nanoparticles for cellular magnetic resonance imaging at 7 Tesla. Loai Y, Sakib N, Janik R, et al. Mol. Imaging 11(2), 166-75, (2012)

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Designing tripodal and triangular gadolinium oxide nanoplates and self-assembled nanofibrils as potential multimodal bioimaging probes. Paik T, Gordon TR, Prantner AM, et al. ACS Nano 7(3), 2850-9, (2013)

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Surface modification of gadolinium oxide thin films and nanoparticles using poly(ethylene glycol)-phosphate. Guay-Bégin AA, Chevallier P, Faucher L, et al. Langmuir 28(1), 774-82, (2012)

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Size-controlled and biocompatible Gd2 O3 nanoparticles for dual photoacoustic and MR imaging. Kimura Y, Kamisugi R, Narazaki M, et al. Adv. Healthc. Mater. 1(5), 657-60, (2012)

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Impact of agglomeration on the relaxometric properties of paramagnetic ultra-small gadolinium oxide nanoparticles. Faucher L, Gossuin Y, Hocq A, et al. Nanotechnology 22(29), 295103, (2011)

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Gd2O3 nanoparticles: size-dependent nuclear magnetic resonance. Anishur Rahman AT, Majewski P, and Vasilev K Contrast Media Mol. Imaging 8(1), 92-5, (2013)

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Long-circulating Gd(2)O(3):Yb(3+), Er(3+) up-conversion nanoprobes as high-performance contrast agents for multi-modality imaging. Liu Z, Pu F, Huang S, et al. Biomaterials 34(6), 1712-21, (2013)

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A synergistically enhanced T(1) -T(2) dual-modal contrast agent. Zhou Z, Huang D, Bao J, et al. Adv. Mater. 24(46), 6223-8, (2012)

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Single-phased luminescent mesoporous nanoparticles for simultaneous cell imaging and anticancer drug delivery. Di W, Ren X, Zhao H, et al. Biomaterials 32(29), 7226-33, (2011)

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Gd₂O₃ nanoparticles in hematopoietic cells for MRI contrast enhancement. Hedlund A, Ahrén M, Gustafsson H, et al. Int. J. Nanomedicine 6, 3233-40, (2011)

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Cytotoxic aspects of gadolinium oxide nanostructures for up-conversion and NIR bioimaging. Hemmer E, Yamano T, Kishimoto H, et al. Acta Biomater. 9(1), 4734-43, (2013)

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Gadolinium(3+)-doped mesoporous silica nanoparticles as a potential magnetic resonance tracer for monitoring the migration of stem cells in vivo. Shen Y, Shao Y, He H, et al. Int. J. Nanomedicine 8, 119-27, (2013)

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The properties of Gd2O3-assembled silica nanocomposite targeted nanoprobes and their application in MRI. Shao Y, Tian X, Hu W, et al. Biomaterials 33(27), 6438-46, (2012)

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Gadolinium oxide nanoparticles as potential multimodal imaging and therapeutic agents. Kim TJ, Chae KS, Chang Y, et al. Curr. Top. Med. Chem 13(4), 422-33, (2013)

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Novel lanthanide-labeled metal oxide nanoparticles improve the measurement of in vivo clearance and translocation. Abid AD, Anderson DS, Das GK, et al. Part. Fibre Toxicol. 10, 1, (2013)

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Peptide-mediated nanoengineering of inorganic particle surfaces: a general route toward surface functionalization via peptide adhesion domains. Schwemmer T, Baumgartner J, Faivre D, et al. J. Am. Chem. Soc. 134(4), 2385-91, (2012)

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Paramagnetic nanoparticles as potential MRI contrast agents: characterization, NMR relaxation, simulations and theory. Vuong QL, Van Doorslaer S, Bridot JL, et al. MAGMA 25(6), 467-78, (2012)

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Effect of different fuels on structural, thermo and photoluminescent properties of Gd2O3 nanoparticles. Dhananjaya N, Nagabhushana H, Nagabhushana BM, et al. Spectrochim. Acta. A. Mol. Biomol. Spectrosc. 96, 532-40, (2012)

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In vitro and in vivo investigations of upconversion and NIR emitting Gd₂O₃:Er³⁺,Yb³⁺ nanostructures for biomedical applications. Hemmer E, Takeshita H, Yamano T, et al. J. Mater. Sci. Mater. Med. 23(10), 2399-412, (2012)

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Effects of gadolinium oxide nanoparticles on the oxidative burst from human neutrophil granulocytes. Abrikossova N, Skoglund C, Ahrén M, et al. Nanotechnology 23, 275101, (2012)

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Poly(lactic-co-glycolic acid) encapsulated gadolinium oxide nanoparticles for MRI-based cell tracking. Bennewitz MF, Williams SS, Nkansah MK, et al. J. Nanosci. Nanotechnol. 13(6), 3778-83, (2013)

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Silica nanoparticles coencapsulating gadolinium oxide and horseradish peroxidase for imaging and therapeutic applications. Gupta N, Shrivastava A, and Sharma RK Int. J. Nanomedicine 7, 5491-500, (2012)

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Optimization of nano-phosphor synthesis by including sensitizer doping for medical X-ray imaging. Kim JN, Shin JW, Oh KM, et al. J. Nanosci. Nanotechnol. 13(5), 3455-8, (2013)

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Comparative bio-effects of SiO2/Gd2O3 nanoparticles depending on their core-shell structures. Zhang M, Xia L, Gu Z, et al. J. Nanosci. Nanotechnol. 13(2), 1270-3, (2013)

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Corp MSDS 1 (1), 1759:A / RegBook 1 (3), 3289:L / Sax 6, 1468

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