scholarly journals An in situ approach to study trace element partitioning in the laser heated diamond anvil cell

2012 ◽  
Vol 83 (1) ◽  
pp. 013904 ◽  
Author(s):  
S. Petitgirard ◽  
M. Borchert ◽  
D. Andrault ◽  
K. Appel ◽  
M. Mezouar ◽  
...  
Keyword(s):  
Trace Element ◽  
Diamond Anvil Cell ◽  
Trace Element Partitioning ◽  
Element Partitioning ◽  
Diamond Anvil ◽  
Laser Heated

Construction of laser-heated diamond anvil cell system for in situ x-ray diffraction study at SPring-8

2001 ◽  
Vol 72 (2) ◽  
pp. 1289 ◽  
Author(s):  
Tetsu Watanuki ◽  
Osamu Shimomura ◽  
Takehiko Yagi ◽  
Tadashi Kondo ◽  
Maiko Isshiki
Keyword(s):  
Diffraction Study ◽  
Diamond Anvil Cell ◽  
Cell System ◽  
X Ray Diffraction ◽  
X Ray ◽  
Diamond Anvil ◽  
Laser Heated

In situ synchrotron X-ray diffraction study of the formation of TaB2 from the elements in a laser heated diamond anvil cell

2010 ◽  
Vol 12 (12) ◽  
pp. 2059-2064 ◽  
Author(s):  
Björn Winkler ◽  
Erick A. Juarez-Arellano ◽  
Alexandra Friedrich ◽  
Lkhamsuren Bayarjargal ◽  
Florian Schröder ◽  
...  
Keyword(s):  
Diffraction Study ◽  
Diamond Anvil Cell ◽  
X Ray Diffraction ◽  
X Ray ◽  
Diamond Anvil ◽  
Laser Heated

In situ observation of the reaction of tantalum with nitrogen in a laser heated diamond anvil cell

2010 ◽  
Vol 502 (1) ◽  
pp. 5-12 ◽  
Author(s):  
Alexandra Friedrich ◽  
Björn Winkler ◽  
Lkhamsuren Bayarjargal ◽  
Erick A. Juarez Arellano ◽  
Wolfgang Morgenroth ◽  
...  
Keyword(s):  
Diamond Anvil Cell ◽  
In Situ Observation ◽  
Diamond Anvil ◽  
Laser Heated

scholarly journals A Practical Review of the Laser-Heated Diamond Anvil Cell for University Laboratories and Synchrotron Applications

Crystals ◽  
2020 ◽  
Vol 10 (6) ◽  
pp. 459 ◽  
Author(s):  
Simone Anzellini ◽  
Silvia Boccato
Keyword(s):  
Diamond Anvil Cell ◽  
Chemical Properties ◽  
X Ray Diffraction ◽  
In Situ Techniques ◽  
Diamond Anvil ◽  
Properties Of Materials ◽  
Laser Heated ◽  
Physical And Chemical ◽  
And Chemical Properties

In the past couple of decades, the laser-heated diamond anvil cell (combined with in situ techniques) has become an extensively used tool for studying pressure-temperature-induced evolution of various physical (and chemical) properties of materials. In this review, the general challenges associated with the use of the laser-heated diamond anvil cells are discussed together with the recent progress in the use of this tool combined with synchrotron X-ray diffraction and absorption spectroscopy.

In situ synchrotron X-ray diffraction in the laser-heated diamond anvil cell: Melting phenomena and synthesis of new materials

2014 ◽  
Vol 277-278 ◽  
pp. 15-30 ◽  
Author(s):  
Ashkan Salamat ◽  
Rebecca A. Fischer ◽  
Richard Briggs ◽  
Malcolm I. McMahon ◽  
Sylvain Petitgirard
Keyword(s):  
Diamond Anvil Cell ◽  
New Materials ◽  
X Ray Diffraction ◽  
X Ray ◽  
Diamond Anvil ◽  
Laser Heated

Synthesis and characterization of nitrides of iridium and palladium

2008 ◽  
Vol 23 (1) ◽  
pp. 1-5 ◽  
Author(s):  
Jonathan C. Crowhurst ◽  
Alexander F. Goncharov ◽  
B. Sadigh ◽  
J.M. Zaug ◽  
D. Aberg ◽  
...  
Keyword(s):  
First Principles ◽  
Diamond Anvil Cell ◽  
Theoretical Calculations ◽  
X Ray ◽  
In Situ Techniques ◽  
Diamond Anvil ◽  
Experimental Findings ◽  
Laser Heated

We describe the synthesis of nitrides of iridium and palladium using the laser-heated diamond anvil cell. We have used the in situ techniques of x-ray powder diffraction and Raman scattering to characterize these compounds and have compared our experimental findings where possible to the results of first-principles theoretical calculations. We suggest that palladium nitride is isostructural with pyrite, while iridium nitride has a monoclinic symmetry and is isostructural with baddeleyite.

High Pressure in situ Micro-Raman Spectroscopy of Ge-Sn System Synthesized in a Laser Heated Diamond Anvil Cell

2011 ◽  
Author(s):  
Y. A. Sorb ◽  
N. Subramanian ◽  
T. R. Ravindran ◽  
P. Ch. Sahu ◽  
Alka B. Garg ◽  
...  
Keyword(s):  
Raman Spectroscopy ◽  
High Pressure ◽  
Diamond Anvil Cell ◽  
Micro Raman Spectroscopy ◽  
Diamond Anvil ◽  
Laser Heated

scholarly journals Experimental Issues in In-Situ Synchrotron X-Ray Diffraction at High Pressure and Temperature by Using a Laser-Heated Diamond-Anvil Cell

1997 ◽  
Vol 499 ◽  
Author(s):  
C. S. Yoo ◽  
H. Cynn ◽  
A. Campbell ◽  
J.-Z. Hu
Keyword(s):  
Diamond Anvil Cell ◽  
High Pressures ◽  
Thermal Gradients ◽  
X Ray Diffraction ◽  
High Pressure And Temperature ◽  
X Ray ◽  
Diamond Anvil ◽  
Integrated Technique ◽  
Laser Heated

ABSTRACTAn integrated technique of diamond-anvil cell, laser-heating and synchrotron x-ray diffraction technologies is capable of structural investigation of condensed matter in an extended region of high pressures and temperatures above 100 GPa and 3000 K. The feasibility of this technique to obtain reliable data, however, strongly depends on several experimental issues, including optical and x-ray setups, thermal gradients, pressure homogeneity, preferred orientation, and chemical reaction. In this paper, we discuss about these experimental issues together with future perspectives of this technique for obtaining accurate data.

Synthesis and Characterization of Nitrides of Iridium and Palladium

2006 ◽  
Vol 987 ◽  
Author(s):  
Jonathan Crowhurst ◽  
Alexander Goncharov ◽  
Babak Sadigh ◽  
Joseph Zaug ◽  
Yue Meng ◽  
...  
Keyword(s):  
First Principles ◽  
Diamond Anvil Cell ◽  
Theoretical Calculations ◽  
X Ray ◽  
In Situ Techniques ◽  
Diamond Anvil ◽  
Experimental Findings ◽  
Laser Heated

AbstractWe describe the synthesis of nitrides of iridium and palladium using the laser-heated diamond anvil cell. We have used the in-situ techniques of x-ray powder diffraction and Raman scattering to characterize these compounds and have compared our experimental findings where possible to the results of first-principles theoretical calculations. We suggest that palladium nitride is isostructural with pyrite while iridium nitride has a monoclinic symmetry and may be isostructural with baddeleyite.

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