D-Index & Metrics Best Publications

Robert H. Wood

University of Delaware
United States

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 Citations Publications World Ranking National Ranking

Chemistry D-index 44 Citations 6,630 169 World Ranking 13242 National Ranking 3571

Overview

What is he best known for?

The fields of study he is best known for:

Quantum mechanics
Organic chemistry
Thermodynamics

His primary areas of study are Thermodynamics, Aqueous solution, Inorganic chemistry, Dilution and Ion. His Thermodynamics research integrates issues from Molality and Activity coefficient. His Aqueous solution research is multidisciplinary, incorporating perspectives in Solvent, Critical point, Molar volume, Analytical chemistry and Supercritical fluid.

His Inorganic chemistry study incorporates themes from Conductance and Enthalpy change of solution. The various areas that he examines in his Dilution study include Ion-association, Enthalpy, Formamide and Physical chemistry. His work deals with themes such as Electrostatics and Sodium, which intersect with Ion.

His most cited work include:

Enthalpy of dilution of aqueous mixtures of amides, sugars, urea, ethylene glycol, and pentaerythritol at 25°C: Enthalpy of interaction of the hydrocarbon, amide, and hydroxyl functional groups in dilute aqueous solutions (305 citations)
Volumes of aqueous solutions of CH4, CO2, H2S and NH3at temperatures from 298.15 K to 705 K and pressures to 35 MPa (116 citations)
Prediction of osmotic and activity coefficients in mixed-electrolyte solutions (112 citations)

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

His primary areas of investigation include Aqueous solution, Thermodynamics, Inorganic chemistry, Dilution and Heat capacity. His Aqueous solution research includes themes of Molar volume, Analytical chemistry, Gibbs free energy and Formamide. His studies in Thermodynamics integrate themes in fields like Ion, Molality, Activity coefficient and Dielectric.

The Inorganic chemistry study combines topics in areas such as Sodium, Aqueous electrolyte, Mixing, Alkali metal and Chloride. His Dilution research includes elements of Partial molar property, Organic chemistry, Supercritical fluid and Enthalpy. Robert H. Wood focuses mostly in the field of Heat capacity, narrowing it down to matters related to Calorimeter and, in some cases, Volumetric flow rate.

He most often published in these fields:

Aqueous solution (53.63%)
Thermodynamics (50.84%)
Inorganic chemistry (32.40%)

What were the highlights of his more recent work (between 1999-2017)?

Thermodynamics (50.84%)
Aqueous solution (53.63%)
Activity coefficient (12.29%)

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

His scientific interests lie mostly in Thermodynamics, Aqueous solution, Activity coefficient, Ion and Ab initio. His study in Thermodynamics is interdisciplinary in nature, drawing from both Solvent and Dielectric. His Aqueous solution study combines topics from a wide range of disciplines, such as Standard enthalpy of reaction, Dilution and Analytical chemistry.

His Dilution research includes themes of Partial molar property, Molality, Organic chemistry, Mannitol and Heat capacity. His work deals with themes such as Conductance, Aqueous electrolyte, Electrical resistance and conductance and Phase, which intersect with Activity coefficient. Robert H. Wood works mostly in the field of Ion, limiting it down to topics relating to Helmholtz free energy and, in certain cases, Electrostatics, Alkali metal and Halide.

Between 1999 and 2017, his most popular works were:

An Equation of State for Electrolyte Solutions Covering Wide Ranges of Temperature, Pressure, and Composition (101 citations)
A new equation of state for correlation and prediction of standard molal thermodynamic properties of aqueous species at high temperatures and pressures (99 citations)
Conductivity of Dilute Aqueous Electrolyte Solutions at High Temperatures and Pressures Using a Flow Cell (78 citations)

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

Quantum mechanics
Organic chemistry
Thermodynamics

His primary scientific interests are in Thermodynamics, Aqueous solution, Dilution, Equation of state and Solvent. The various areas that he examines in his Aqueous solution study include Inorganic chemistry and Ionic conductivity. His Dilution research is multidisciplinary, incorporating elements of Partial molar property and Molality.

His studies examine the connections between Solvent and genetics, as well as such issues in Supercritical fluid, with regards to Ab initio, Potential of mean force, Sodium, Physical chemistry and Ion pairs. The study incorporates disciplines such as Ion and Conductance in addition to Activity coefficient. His Heat capacity study combines topics in areas such as Enthalpy change of solution and Enthalpy.

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

Enthalpy of dilution of aqueous mixtures of amides, sugars, urea, ethylene glycol, and pentaerythritol at 25°C: Enthalpy of interaction of the hydrocarbon, amide, and hydroxyl functional groups in dilute aqueous solutions

James J. Savage;Robert H. Wood.
Journal of Solution Chemistry (1976)

473 Citations

An Equation of State for Electrolyte Solutions Covering Wide Ranges of Temperature, Pressure, and Composition

Jason A. Myers and;Stanley I. Sandler;Robert H. Wood.
Industrial & Engineering Chemistry Research (2002)

182 Citations

The enthalpy of dilution of HCl(aq) to 648 K and 40 MPa thermodynamic properties

H.F Holmes;R.H Busey;J.M Simonson;R.E Mesmer.
The Journal of Chemical Thermodynamics (1987)

176 Citations

Volumes of aqueous solutions of CH4, CO2, H2S and NH3at temperatures from 298.15 K to 705 K and pressures to 35 MPa

Lubom ı́r Hn ědkovsk ý;Robert H. Wood;Vladimir Majer.
The Journal of Chemical Thermodynamics (1996)

176 Citations

Prediction of osmotic and activity coefficients in mixed-electrolyte solutions

Peter J. Reilly;Robert Hemsley Wood;Robert Anthony Robinson.
The Journal of Physical Chemistry (1971)

169 Citations

A new equation of state for correlation and prediction of standard molal thermodynamic properties of aqueous species at high temperatures and pressures

Josef Sedlbauer;John P. O'Connell;Robert H. Wood.
Chemical Geology (2000)

162 Citations

Systematic errors in free energy perturbation calculations due to a finite sample of configuration space: sample-size hysteresis

Robert H. Wood;Wolfgang C. F. Muhlbauer;Peter T. Thompson.
The Journal of Physical Chemistry (1991)

160 Citations

New Apparatus for Conductance Measurements at High Temperatures: Conductance of Aqueous Solutions of LiCl, NaCl, NaBr, and CsBr at 28 MPa and Water Densities from 700 to 260 kg m-3

Gregory H. Zimmerman;Miroslaw S. Gruszkiewicz;Robert H. Wood.
The Journal of Physical Chemistry (1995)

152 Citations

Infinite Dilution Partial Molar Volumes of Aqueous Solutes over Wide Ranges of Conditions

John P. O'Connell;Andrei V. Sharygin;Robert H. Wood.
Industrial & Engineering Chemistry Research (1996)

144 Citations

Apparent molar volumes of aqueous argon, ethylene, and xenon from 300 to 716 K

Daniel R. Biggerstaff;Robert H. Wood.
The Journal of Physical Chemistry (1988)

123 Citations

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