D-Index & Metrics Best Publications

D-Index & Metrics D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines.

Discipline name D-index D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines. Citations Publications World Ranking National Ranking
Chemistry D-index 64 Citations 11,586 313 World Ranking 5202 National Ranking 157

Overview

What is he best known for?

The fields of study he is best known for:

  • Oxygen
  • Condensed matter physics
  • X-ray crystallography

Daniel Errandonea focuses on Phase transition, X-ray crystallography, Crystallography, Diffraction and Analytical chemistry. His Phase transition research incorporates themes from Scheelite, Ab initio quantum chemistry methods, Raman spectroscopy, Electronic structure and Monoclinic crystal system. The various areas that Daniel Errandonea examines in his X-ray crystallography study include Orthorhombic crystal system, Fergusonite, Condensed matter physics and Thermodynamics.

His studies in Crystallography integrate themes in fields like Space group, Bulk modulus and Anisotropy. His Diffraction research is multidisciplinary, incorporating elements of Xenon, Krypton, Compressibility and Equation of state. His research in Analytical chemistry intersects with topics in Diamond anvil cell, Pressure coefficient, Synchrotron and Band gap.

His most cited work include:

  • Pressure-induced α → ω transition in titanium metal: a systematic study of the effects of uniaxial stress (252 citations)
  • Pressure-induced α → ω transition in titanium metal: a systematic study of the effects of uniaxial stress (252 citations)
  • Pressure effects on the structural and electronic properties of ABX4 scintillating crystals (236 citations)

What are the main themes of his work throughout his whole career to date?

His main research concerns Phase transition, Crystallography, Raman spectroscopy, Diffraction and Condensed matter physics. His studies examine the connections between Phase transition and genetics, as well as such issues in Monoclinic crystal system, with regards to Triclinic crystal system. His Crystallography research includes themes of X-ray crystallography, Density functional theory and Analytical chemistry.

His X-ray crystallography study frequently links to adjacent areas such as Bulk modulus. His study in Raman spectroscopy is interdisciplinary in nature, drawing from both Crystal, Scheelite and Molecular physics. In his study, which falls under the umbrella issue of Diffraction, Phase diagram is strongly linked to Thermodynamics.

He most often published in these fields:

  • Phase transition (47.01%)
  • Crystallography (34.13%)
  • Raman spectroscopy (26.35%)

What were the highlights of his more recent work (between 2018-2021)?

  • Phase transition (47.01%)
  • Raman spectroscopy (26.35%)
  • Diffraction (26.95%)

In recent papers he was focusing on the following fields of study:

Daniel Errandonea mainly investigates Phase transition, Raman spectroscopy, Diffraction, Thermodynamics and Crystal structure. The subject of his Phase transition research is within the realm of Condensed matter physics. His work carried out in the field of Raman spectroscopy brings together such families of science as Molecular physics, Crystal and Ab initio quantum chemistry methods.

His Diffraction research is multidisciplinary, incorporating perspectives in Characterization, Synchrotron and Isostructural. His Thermodynamics study incorporates themes from X-ray crystallography, Orthorhombic crystal system and Phase diagram. His Crystal structure study contributes to a more complete understanding of Crystallography.

Between 2018 and 2021, his most popular works were:

  • In situ characterization of the high pressure - high temperature melting curve of platinum. (29 citations)
  • Melting curve and phase diagram of vanadium under high-pressure and high-temperature conditions (22 citations)
  • Experimental and theoretical confirmation of an orthorhombic phase transition in niobium at high pressure and temperature (16 citations)

In his most recent research, the most cited papers focused on:

  • Oxygen
  • Condensed matter physics
  • Crystal structure

The scientist’s investigation covers issues in Phase transition, Raman spectroscopy, Diffraction, Crystal structure and X-ray crystallography. Daniel Errandonea has researched Phase transition in several fields, including Chemical physics, Compressibility, Phonon, Band gap and Anisotropy. His Raman spectroscopy study is focused on Analytical chemistry in general.

Daniel Errandonea conducted interdisciplinary study in his works that combined Diffraction and Melting curve analysis. His Crystal structure research is classified as research in Crystallography. His X-ray crystallography study integrates concerns from other disciplines, such as Equation of state and Electronic properties.

This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.

Best Publications

Pressure-induced α → ω transition in titanium metal: a systematic study of the effects of uniaxial stress

Daniel Errandonea;Daniel Errandonea;Y. Meng;M. Somayazulu;D. Häusermann.
Physica B-condensed Matter (2005)

379 Citations

Pressure effects on the structural and electronic properties of ABX4 scintillating crystals

Daniel Errandonea;Francisco Javier Manjón.
Progress in Materials Science (2008)

333 Citations

Systematics of transition-metal melting

Daniel Errandonea;Beate Schwager;Reiner Ditz;Christine H. Gessmann.
Physical Review B (2001)

301 Citations

Optical absorption of divalent metal tungstates: Correlation between the band-gap energy and the cation ionic radius

R. Lacomba-Perales;J. Ruiz-Fuertes;D. Errandonea;D. Martínez-García.
EPL (2008)

294 Citations

High-pressure structural study of the scheelite tungstates CaWO 4 and SrWO 4

D. Errandonea;J. Pellicer-Porres;F. J. Manjón;A. Segura.
Physical Review B (2005)

184 Citations

A synchrotron Mössbauer spectroscopy study of (Mg,Fe)SiO3 perovskite up to 120 GPa

Jennifer M. Jackson;Wolfgang Sturhahn;Guoyin Shen;Jiyong Zhao.
American Mineralogist (2005)

177 Citations

The melting curve of ten metals up to 12 GPa and 1600 K

Daniel Errandonea.
Journal of Applied Physics (2010)

173 Citations

High-pressure stability and compressibility of A PO 4 ( A = La , Nd, Eu, Gd, Er, and Y) orthophosphates: An x-ray diffraction study using synchrotron radiation

R. Lacomba-Perales;D. Errandonea;Y. Meng;M. Bettinelli.
Physical Review B (2010)

165 Citations

Comment on “High-pressure x-ray diffraction study of YBO3/Eu3+, GdBO3, and EuBO3: Pressure-induced amorphization in GdBO3” [J. Appl. Phys. 115, 043507 (2014)]

D. Errandonea;A. Muñoz;J. Gonzalez-Platas;J. Gonzalez-Platas.
Journal of Applied Physics (2014)

161 Citations

Structural transformation of compressed solid Ar: An x-ray diffraction study to 114 GPa

D. Errandonea;R. Boehler;S. Japel;M. Mezouar.
Physical Review B (2006)

155 Citations

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