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Items: 1 to 20 of 74

1.

Designed 3D architectures of high-temperature superconductors.

Green DC, Lees MR, Hall SR.

Chem Commun (Camb). 2013 Apr 14;49(29):2974-6. doi: 10.1039/c3cc38271k.

PMID:
23388857
2.

In situ self-assembly of mild chemical reduction graphene for three-dimensional architectures.

Chen W, Yan L.

Nanoscale. 2011 Aug;3(8):3132-7. doi: 10.1039/c1nr10355e. Epub 2011 Jun 23.

PMID:
21698339
3.

Organic supramolecular architectures and their sol-gel transcription to Silica nanotubes.

Jung JH, Shinkai S, Shimizu T.

Chem Rec. 2003;3(4):212-24.

PMID:
14595830
4.

The possibility of a liquid superconductor.

Edwards PP, Rao CN, Kumar N, Alexandrov AS.

Chemphyschem. 2006 Sep 11;7(9):2015-21.

PMID:
16892477
5.

Superconducting properties of copper oxide high-temperature superconductors.

Chen G, Langlois JM, Guo Y, Goddard WA.

Proc Natl Acad Sci U S A. 1989 May;86(10):3447-51.

6.

Assembly of one dimensional inorganic nanostructures into functional 2D and 3D architectures. Synthesis, arrangement and functionality.

Joshi RK, Schneider JJ.

Chem Soc Rev. 2012 Aug 7;41(15):5285-312. doi: 10.1039/c2cs35089k. Epub 2012 Jun 21.

PMID:
22722888
7.

High critical currents in iron-clad superconducting MgB2 wires.

Jin S, Mavoori H, Bower C, van Dover RB.

Nature. 2001 May 31;411(6837):563-5.

PMID:
11385565
8.

High-Tc superconductors in the two-dimensional limit:

Choy JH, Kwon SJ, Park GS.

Science. 1998 Jun 5;280(5369):1589-92.

9.

Electronic origin of high-temperature superconductivity in single-layer FeSe superconductor.

Liu D, Zhang W, Mou D, He J, Ou YB, Wang QY, Li Z, Wang L, Zhao L, He S, Peng Y, Liu X, Chen C, Yu L, Liu G, Dong X, Zhang J, Chen C, Xu Z, Hu J, Chen X, Ma X, Xue Q, Zhou XJ.

Nat Commun. 2012 Jul 3;3:931. doi: 10.1038/ncomms1946.

PMID:
22760630
10.

Magnetic resonant mode in the single-layer high-temperature superconductor Tl2Ba2CuO(6+delta).

He H, Bourges P, Sidis Y, Ulrich C, Regnault LP, Pailhès S, Berzigiarova NS, Kolesnikov NN, Keimer B.

Science. 2002 Feb 8;295(5557):1045-7. Epub 2002 Jan 24.

11.

Room temperature synthesis of agarose/sol-gel glass pieces with tailored interconnected porosity.

Cabañas MV, Peña J, Román J, Vallet-Regí M.

J Biomed Mater Res A. 2006 Sep 1;78(3):508-14.

PMID:
16736486
12.

Nature of the superconductor-insulator transition in disordered superconductors.

Dubi Y, Meir Y, Avishai Y.

Nature. 2007 Oct 18;449(7164):876-80.

PMID:
17943125
13.

Observation of d(x2-y2)-like superconducting gap in an electron-doped high-temperature superconductor.

Sato T, Kamiyama T, Takahashi T, Kurahashi K, Yamada K.

Science. 2001 Feb 23;291(5508):1517-9.

14.
15.

A hidden pseudogap under the 'dome' of superconductivity in electron-doped high-temperature superconductors.

Alff L, Krockenberger Y, Welter B, Schonecke M, Gross R, Manske D, Naito M.

Nature. 2003 Apr 17;422(6933):698-701.

PMID:
12700755
16.

Overview on the physics and materials of the new superconductor K(x)Fe(2-y)Se2.

Wen HH.

Rep Prog Phys. 2012 Nov;75(11):112501. doi: 10.1088/0034-4885/75/11/112501. Epub 2012 Oct 16.

PMID:
23073361
17.

Surfactant-free microwave-assisted hydrothermal synthesis of BaMoO4 hierarchical self-assemblies and enhanced photoluminescence properties.

Liu YF, Xia LL, Lu YN, Dai SH, Takeguchi M, Hong HM, Pan ZG.

J Colloid Interface Sci. 2012 Sep 1;381(1):24-9. doi: 10.1016/j.jcis.2012.05.028. Epub 2012 May 23.

PMID:
22717082
18.

Vortex dynamics in superconducting MgB2 and prospects for applications.

Bugoslavsky Y, Perkins GK, Qi X, Cohen LF, Caplin AD.

Nature. 2001 Mar 29;410(6828):563-5.

PMID:
11279489
19.
20.

Resonance in the electron-doped high-transition-temperature superconductor Pr0.88LaCe0.12CuO4-delta.

Wilson SD, Dai P, Li S, Chi S, Kang HJ, Lynn JW.

Nature. 2006 Jul 6;442(7098):59-62.

PMID:
16823448
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