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Items: 1 to 20 of 152

1.

Time and position resolved in situ X-ray diffraction study of the hydrothermal conversion of gypsum monoliths to hydroxyapatite.

Fisher RD, Walton RI.

Dalton Trans. 2009 Oct 14;(38):8079-86. doi: 10.1039/b910485m. Epub 2009 Aug 14.

PMID:
19771372
2.

Recent results from the in situ study of hydrothermal crystallisations using time-resolved X-ray and neutron diffraction methods.

Walton RI, Norquist A, Smith RI, O'Hare D.

Faraday Discuss. 2003;122:331-41; discussion 381-93.

PMID:
12555866
3.

Transformation of 3DP gypsum model to HA by treating in ammonium phosphate solution.

Lowmunkong R, Sohmura T, Takahashi J, Suzuki Y, Matsuya S, Ishikawa K.

J Biomed Mater Res B Appl Biomater. 2007 Feb;80(2):386-93.

PMID:
16838351
4.

Kinetic and mechanistic investigations of hydrothermal transformations in zinc phosphates.

Norquist AJ, O'Hare D.

J Am Chem Soc. 2004 Jun 2;126(21):6673-9.

PMID:
15161295
5.

Hydrothermal formation of tobermorite studied by in situ X-ray diffraction under autoclave condition.

Kikuma J, Tsunashima M, Ishikawa T, Matsuno SY, Ogawa A, Matsui K, Sato M.

J Synchrotron Radiat. 2009 Sep;16(Pt 5):683-6. doi: 10.1107/S0909049509022080. Epub 2009 Jul 2.

PMID:
19713643
7.

Carbonate hydroxyapatite gel monolith formation and drying.

Barralet JE, Best SM, Bonfield W.

Biomed Mater Eng. 1996;6(2):101-12.

PMID:
8761520
8.

In situ X-ray diffraction study of the hydrothermal crystallization of hierarchical Bi₂WO₆ nanostructures.

Zhou Y, Antonova E, Bensch W, Patzke GR.

Nanoscale. 2010 Nov;2(11):2412-7. doi: 10.1039/c0nr00340a. Epub 2010 Aug 16.

PMID:
20714655
9.

In situ phase separation following dehydration in bimetallic sulfates: a variable-temperature X-ray diffraction study.

Swain D, Guru Row TN.

Inorg Chem. 2009 Aug 3;48(15):7048-58. doi: 10.1021/ic801308u.

PMID:
19586014
10.

Kinetics and mechanism of the beta- to alpha-CuAlCl(4) phase transition: a time-resolved (63)Cu MAS NMR and powder X-ray diffraction study.

Liu H, Sullivan RM, Hanson JC, Grey CP, Martin JD.

J Am Chem Soc. 2001 Aug 8;123(31):7564-73.

PMID:
11480977
11.

Fabrication of B-type carbonate apatite blocks by the phosphorization of free-molding gypsum-calcite composite.

Zaman CT, Takeuchi A, Matsuya S, Zaman QH, Ishikawa K.

Dent Mater J. 2008 Sep;27(5):710-5.

12.

Preparation of highly porous hydroxyapatite from cuttlefish bone.

Ivankovic H, Gallego Ferrer G, Tkalcec E, Orlic S, Ivankovic M.

J Mater Sci Mater Med. 2009 May;20(5):1039-46. doi: 10.1007/s10856-008-3674-0. Epub 2009 Jan 10.

PMID:
19132509
13.

High-throughput and time-resolved energy-dispersive X-ray diffraction (EDXRD) study of the formation of CAU-1-(OH)2: microwave and conventional heating.

Ahnfeldt T, Moellmer J, Guillerm V, Staudt R, Serre C, Stock N.

Chemistry. 2011 May 27;17(23):6462-8. doi: 10.1002/chem.201003708. Epub 2011 Apr 27.

PMID:
21538608
14.

New insights into the formation of microporous materials by in situ scattering techniques.

Sankar G, Okubo T, Fan W, Meneau F.

Faraday Discuss. 2007;136:157-66; discussion 213-29.

PMID:
17955808
15.
16.

Real time observation of the hydrothermal crystallization of barium titanate using in situ neutron powder diffraction.

Walton RI, Millange F, Smith RI, Hansen TC, O'Hare D.

J Am Chem Soc. 2001 Dec 19;123(50):12547-55.

PMID:
11741419
17.

In situ XRD, XAS, and magnetic susceptibility study of the reduction of ammonium nickel phosphate NiNH4PO4 x H2O into nickel phosphide.

Berhault G, Afanasiev P, Loboué H, Geantet C, Cseri T, Pichon C, Guillot-Deudon C, Lafond A.

Inorg Chem. 2009 Apr 6;48(7):2985-92. doi: 10.1021/ic802074k.

PMID:
19236008
18.

Solid-state P-31 NMR study of the formation of hydroxyapatite in the presence of glutaric acid.

Tseng YH, Mou Y, Chen PH, Tsai TW, Hsieh CI, Mou CY, Chan JC.

Magn Reson Chem. 2008 Apr;46(4):330-4. doi: 10.1002/mrc.2096.

PMID:
18306172
19.

Effect of glass phase on the dissolution of hydroxyapatite.

Youn SH, Yang ZX, Hwang KH, Seo DS, Lee JK, Jun BS, Kim H.

J Nanosci Nanotechnol. 2008 Feb;8(2):679-84.

PMID:
18464391
20.

The Oxford-Diamond In Situ Cell for studying chemical reactions using time-resolved X-ray diffraction.

Moorhouse SJ, Vranješ N, Jupe A, Drakopoulos M, O'Hare D.

Rev Sci Instrum. 2012 Aug;83(8):084101.

PMID:
22938312
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