CML dictionary for compchem conventions allowing representation of thermophysical properties of deep eutectic solvents (DES) with CML. Examples of thermophysical properties are: density, viscosity, conductivity and water activity
<?xml version="1.0" encoding="UTF-8" ?>
<dictionary xmlns="http://www.xml-cml.org/schema"
xmlns:convention="http://www.xml-cml.org/convention/"
xmlns:des_unit="https://fairdomhub.org/data_files/3044?version=3"
xmlns:unit="http://www.xml-cml.org/unit/nonSi/"
xmlns:unitType="http://www.xml-cml.org/unit/unitType/"
xmlns:xhtml="http://www.w3.org/1999/xhtml"
xmlns:xsd="http://www.w3.org/2001/XMLSchema"
convention="convention:dictionary"
title="concepts of properties of deep eutectic solvents"
namespace="https://fairdomhub.org/data_files/3045?version=4"
dictionaryPrefix="des">
<description>
<xhtml:p>
This is a dictionary of deep eutectic solvents
</xhtml:p>
</description>
<entry id="mixture" term="mixture"
dataType="xsd:string" unitType="unitType:none" units="unit:none">
<definition>
<xhtml:p>
water is H2O, DES is the mixture of choline chloride and glycerol.
</xhtml:p>
</definition>
</entry>
<entry id="density" term="density"
dataType="xsd:string" unitType="unitType:none" units="unit:none">
<definition>
<xhtml:p>
just for defining the tag.
</xhtml:p>
</definition>
</entry>
<entry id="viscosity" term="viscosity"
dataType="xsd:string" unitType="unitType:none" units="unit:none">
<definition>
<xhtml:p>
just for defining the tag.
</xhtml:p>
</definition>
</entry>
<entry id="conductivity" term="conductivity"
dataType="xsd:string" unitType="unitType:none" units="unit:none">
<definition>
<xhtml:p>
just for defining the tag.
</xhtml:p>
</definition>
</entry>
<entry id="water_activity" term="water_activity"
dataType="xsd:string" unitType="unitType:none" units="unit:none">
<definition>
<xhtml:p>
just for defining the tag.
</xhtml:p>
</definition>
</entry>
<entry id="experiment" term="experiment"
dataType="xsd:string" unitType="unitType:none" units="unit:none">
<definition>
<xhtml:p>
just for defining the tag.
</xhtml:p>
</definition>
</entry>
<entry id="simulation" term="simulation"
dataType="xsd:string" unitType="unitType:none" units="unit:none">
<definition>
<xhtml:p>
just for defining the tag.
</xhtml:p>
</definition>
</entry>
<entry id="modelling" term="modelling"
dataType="xsd:string" unitType="unitType:none" units="unit:none">
<definition>
<xhtml:p>
just for defining the tag.
</xhtml:p>
</definition>
</entry>
<entry id="ID" term="ID"
dataType="xsd:integer" unitType="unitType:none" units="unit:none">
<definition>
<xhtml:p>
just for defining the tag.
</xhtml:p>
</definition>
</entry>
<entry id="DOI" term="DOI"
dataType="xsd:string" unitType="unitType:none" units="unit:none">
<definition>
<xhtml:p>
just for defining the tag.
</xhtml:p>
</definition>
</entry>
<entry id="value_density" term="value_density"
dataType="xsd:double" unitType="unitType:massDensity" units="unit:g.cm-3">
<definition>
<xhtml:p>
The density, or more precisely, the volumetric mass density, of a substance is its mass per unit volume.
</xhtml:p>
</definition>
<description>
<xhtml:p>
density is treated as a important property of des.
</xhtml:p>
<xhtml:p>
The density of a material varies with temperature and pressure. This variation is typically
small for solids and liquids but much greater for gases. Increasing the pressure on an object
decreases the volume of the object and thus increases its density. Increasing the temperature
of a substance(with a few exceptions) decreases its density by increasing its volume.
</xhtml:p>
</description>
</entry>
<entry id="error_density" term="error_density"
dataType="xsd:double" unitType="unitType:massDensity" units="unit:g.cm-3">
<definition>
<xhtml:p>
The error of density measurement.
</xhtml:p>
</definition>
<description>
<xhtml:p>
It is quite important in error propogation.
</xhtml:p>
</description>
</entry>
<entry id="value_viscosity" term="value_viscosity"
dataType="xsd:double" unitType="unitType:dynamic_viscosity" units="unit:mpa.s">
<definition>
<xhtml:p>
The Si unit of dynamic viscosity, equal to 1 cP(Centipoise).
</xhtml:p>
</definition>
<description>
<xhtml:p>
The viscosity of a fluid is a measure of its resistance to deformation at a given rate.
For liquids, it corresponds to the informal concept of "thickness": for example, syrup
has a higher viscosity than water.
</xhtml:p>
</description>
</entry>
<entry id="error_viscosity" term="error_viscosity"
dataType="xsd:double" unitType="unitType:dynamic_viscosity" units="unit:mpa.s">
<definition>
<xhtml:p>
The error of viscosity measurement.
</xhtml:p>
</definition>
<description>
<xhtml:p>
It is quite important in error propogation.
</xhtml:p>
</description>
</entry>
<entry id="value_conductivity" term="value_conductivity"
dataType="xsd:double" unitType="unitType:electrical_conductivity" units="unit:micros.cm-1">
<definition>
<xhtml:p>
The Si unit of electrical conductivity, equal to 1000 μS/cm.
</xhtml:p>
</definition>
<description>
<xhtml:p>
Electrical conductivity, is a fundamental property of a material that quantifies how
strongly it resists or conducts the flow of electric current. A low resistivity indicates
a material that readily allows the flow of electric current.
</xhtml:p>
</description>
</entry>
<entry id="error_conductivity" term="error_conductivity"
dataType="xsd:double" unitType="unitType:electrical_conductivity" units="unit:micros.cm-1">
<definition>
<xhtml:p>
The error of conductivity measurement.
</xhtml:p>
</definition>
<description>
<xhtml:p>
It is quite important in error propogation.
</xhtml:p>
</description>
</entry>
<entry id="value_water_activity" term="value_water_activity"
dataType="xsd:double" unitType="unitType:dimensionless" units="unit:dimensionless">
<definition>
<xhtml:p>
Water activity or aw is the partial vapor pressure of water in a substance divided by
the standard state partial vapor pressure of water.
</xhtml:p>
</definition>
<description>
<xhtml:p>
Using this particular definition, pure distilled water has a water activity of exactly one.
As temperature increases, aw typically increases, except in some products with crystalline salt or sugar.
</xhtml:p>
</description>
</entry>
<entry id="error_water_activity" term="error_water_activity"
dataType="xsd:double" unitType="unitType:dimensionless" units="unit:dimensionless">
<definition>
<xhtml:p>
The error of water-activity measurement.
</xhtml:p>
</definition>
<description>
<xhtml:p>
It is quite important in error propogation.
</xhtml:p>
</description>
</entry>
<entry id="molar_ratio_of_DES" term="molar_ratio_of_DES"
dataType="xsd:double" unitType="unitType:mole per mole" units="unit:mol.mol-1">
<definition>
<xhtml:p>
Molar ratio of DES is the ratio of choline chlorid and glycerol. (mole per mole)
</xhtml:p>
</definition>
<description>
<xhtml:p>
If the ratio is 0.5 (1:2), then this DES is glyceline.
</xhtml:p>
</description>
</entry>
<entry id="mole_fraction_of_water" term="mole_fraction_of_water"
dataType="xsd:double" unitType="unitType:mole per mole" units="unit:mol.mol-1">
<definition>
<xhtml:p>
mole fraction of water represents the water content of DES mixture. It is the fraction
of water and total amount of all constituents. (mole per mole)
</xhtml:p>
</definition>
<description>
<xhtml:p>
If the value is 0, then contains no water. If the value is 1, then it is not DES,
but a aqueous solution.
</xhtml:p>
</description>
</entry>
<entry id="temperature" term="temperature"
dataType="xsd:double" unitType="unitType:temperature" units="unit:k">
<definition>
<xhtml:p>
Temperature is a physical quantity expressing hot and cold. It is measured with a
thermometer calibrated in one or more temperature scales.
</xhtml:p>
</definition>
<description>
<xhtml:p>
The most commonly used scales are the Celsius scale (formerly called centigrade) (denoted °C),
Fahrenheit scale (denoted °F), and Kelvin scale (denoted K). The kelvin (the word is spelled with a lower-case k)
is the unit of temperature in the International System of Units (SI)
</xhtml:p>
</description>
</entry>
</dictionary>
Creators and SubmitterCreators
Submitter
Views: 2832 Downloads: 251
Created: 23rd Aug 2019 at 10:39
Last updated: 15th Jun 2020 at 14:22
TagsThis item has not yet been tagged.
AttributionsNone
Version History
Version 4 (latest) Created 15th Jun 2020 at 14:22 by Xinmeng Xu
No revision comments
Download
View content
https://orcid.org/0000-0001-9119-1778