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IONIC RADIUS

  • Ionic radius
  • Radius of an atomic ion in crystals

    Ionic radius, rion, is the radius of a monatomic ion in an ionic crystal structure. Although neither atoms nor ions have sharp boundaries, they are treated

    Ionic radius

    Ionic_radius

  • Atomic radius
  • Measure of the size of an atom

    atomic radius. Five widely used definitions of atomic radius are covalent radius, Van der Waals radius, charge radius, ionic radius, and metallic radius. Typically

    Atomic radius

    Atomic radius

    Atomic_radius

  • Sodium-ion battery
  • Type of rechargeable battery

    the ionic radius of Na+ (116 pm) is substantially larger than that of Fe2+ and Fe3+ (69–92 pm depending on the spin state), whereas the ionic radius of

    Sodium-ion battery

    Sodium-ion battery

    Sodium-ion_battery

  • Spin states (d electrons)
  • Potential configurations of electrons

    Octahedral high spin: Co2+ ionic radius 74.5 pm, Ni3+ ionic radius 60 pm. Octahedral low spin: Co2+ ionic radius 65 pm, Ni3+ionic radius 56 pm. d8 Octahedral

    Spin states (d electrons)

    Spin_states_(d_electrons)

  • Molar conductivity
  • Conductivity per molar concentration of electrolyte

    radius. The values obtained for an ionic radius in solution calculated this way can be quite different from the ionic radius for the same ion in crystals,

    Molar conductivity

    Molar_conductivity

  • Cation-anion radius ratio
  • Ratio of cation radius to anion radius

    atoms. It is defined as the ratio of the ionic radius of the positively charged cation to the ionic radius of the negatively charged anion in a cation-anion

    Cation-anion radius ratio

    Cation-anion_radius_ratio

  • Ion
  • Particle, atom or molecule with a net electrical charge

    which the spatial extension and the ionic radius of individual ions may be derived. The most common type of ionic bonding is seen in compounds of metals

    Ion

    Ion

    Ion

  • Lanthanide
  • Elements with atomic numbers 57-70

    trivalent cations, Ln3+, whose chemistry is largely determined by the ionic radius, which decreases steadily from lanthanum (La) to lutetium (Lu). In presentations

    Lanthanide

    Lanthanide

    Lanthanide

  • Periodic table
  • Tabular arrangement of the chemical elements

    increases in magnitude with the charge and radius of the ion. In Mg+, the outermost orbital (which determines ionic radius) is still 3s, so the hydration enthalpy

    Periodic table

    Periodic table

    Periodic_table

  • Mendelevium
  • Chemical element with atomic number 101 (Md)

    coefficients and ionic radius produced a value of 89.6 pm, as well as an enthalpy of hydration of −3654±12 kJ/mol. Md2+ should have an ionic radius of 115 pm

    Mendelevium

    Mendelevium

  • Stability constants of complexes
  • Constants that describe stability of coordination complexes

    ligands. There are three strands to the explanation of the series. The ionic radius is expected to decrease regularly for Mn2+ to Zn2+. This would be the

    Stability constants of complexes

    Stability_constants_of_complexes

  • Bromide
  • Chemical compound or ion

    type of skin eruption, see potassium bromide. The bromide ion has an ionic radius of 196 pm. Bromide is present in typical seawater (35 PSU) with a concentration

    Bromide

    Bromide

  • Glass
  • Transparent non-crystalline solid material

    frequent use as an additive in vitreous enamels and glass solders. The high ionic radius of the Pb2+ ion renders it highly immobile and hinders the movement of

    Glass

    Glass

    Glass

  • Yttria-stabilized zirconia
  • Ceramic with room temperature stable cubic crystal structure

    temperatures is accomplished by substitution of some of the Zr4+ ions (ionic radius of 0.82 Å, too small for ideal lattice of fluorite characteristic for

    Yttria-stabilized zirconia

    Yttria-stabilized zirconia

    Yttria-stabilized_zirconia

  • Stokes radius
  • Parameter of solute diffusion

    s} is the sphere's drift speed, and a {\displaystyle a} is its radius. Because ionic mobility μ {\displaystyle \mu } is directly proportional to drift

    Stokes radius

    Stokes_radius

  • Salt (chemistry)
  • Chemical compound involving ionic bonding

    In chemistry, a salt or ionic compound is a chemical compound consisting of an assembly of positively charged ions (cations) and negatively charged ions

    Salt (chemistry)

    Salt (chemistry)

    Salt_(chemistry)

  • Rare-earth element
  • Any of the fifteen lanthanides plus scandium and yttrium

    contraction" which represents a higher-than-expected decrease in the atomic/ionic radius of the elements along the series. This is determined by the variation

    Rare-earth element

    Rare-earth element

    Rare-earth_element

  • Alkali metal
  • Group of highly reactive chemical elements

    similar ionic radii; lithium and sodium are more distinct. For instance, when moving down the table, all known alkali metals show increasing atomic radius, decreasing

    Alkali metal

    Alkali metal

    Alkali_metal

  • Amethyst
  • Mineral, quartz variety

    silicon in the structure, in the presence of trace elements of large ionic radius, and to a certain extent, the amethyst color can naturally result from

    Amethyst

    Amethyst

    Amethyst

  • Hydration number
  • Measure of solvency/solution

    decreasing ionic radius shows decreasing conductivity suggesting that the effective radius of the hydrated ion increases as ionic radius decreases (larger

    Hydration number

    Hydration number

    Hydration_number

  • Covalent radius
  • Measure of the size of an atom that forms part of one covalent bond

    The covalent radius, rcov, is a measure of the size of an atom that forms part of one covalent bond. It is usually measured either in picometres (pm) or

    Covalent radius

    Covalent radius

    Covalent_radius

  • Atomic radii of the elements (data page)
  • in this table. Atomic radius Covalent radius (Single-, double- and triple-bond radii, up to the superheavy elements.) Ionic radius Difference between empirical

    Atomic radii of the elements (data page)

    Atomic_radii_of_the_elements_(data_page)

  • Ionic potential
  • Ratio of the electrical charge to the radius of an ion

    Ionic potential is the ratio of the electrical charge (z) to the radius (r) of an ion. Ionic potential = electrical charge ionic radius = z r {\displaystyle

    Ionic potential

    Ionic_potential

  • Lithium
  • Chemical element with atomic number 3 (Li)

    alkali metal. Lithium also competes with bivalent magnesium ions, whose ionic radius (86 pm) is approximately that of the lithium ion (90 pm). Mechanisms

    Lithium

    Lithium

    Lithium

  • Ununennium
  • Theoretical chemical element with atomic number 119 (Uue)

    atomic radius to around 240 pm, very close to that of rubidium (247 pm); the metallic radius is also correspondingly lowered to 260 pm. The ionic radius of

    Ununennium

    Ununennium

  • Lanthanide contraction
  • Decrease of ionic radii across the lanthanide series

    empirical atomic radius decreases across the 2p block from 85 pm for boron to 50 pm for fluorine. Whereas, in the lanthanide ions, the ionic radius drops from

    Lanthanide contraction

    Lanthanide_contraction

  • Metal ions in aqueous solution
  • Properties and behavior of hydrated cations in aqueous solution

    with the electrical charge, z, on the metal ion and decreases as its ionic radius, r, increases. Aqua ions are subject to hydrolysis. The logarithm of

    Metal ions in aqueous solution

    Metal_ions_in_aqueous_solution

  • Moscovium
  • Chemical element with atomic number 115 (Mc)

    predict that moscovium(I) fluoride and chloride would be ionic compounds, with an ionic radius of about 109–114 pm for Mc+, although the 7p1/2 lone pair

    Moscovium

    Moscovium

  • Caesium
  • Chemical element with atomic number 55 (Cs)

    (NaCl) structure. The CsCl structure is preferred because Cs+ has an ionic radius of 174 pm and Cl− 181 pm. More so than the other alkali metals, caesium

    Caesium

    Caesium

    Caesium

  • Debye–Hückel theory
  • Model describing the departures from ideality in solutions of electrolytes and plasmas

    Moreover, ionic radius is assumed to be negligible, but at higher concentrations, the ionic radius becomes comparable to the radius of the ionic atmosphere

    Debye–Hückel theory

    Debye–Hückel_theory

  • Periodic trends
  • Specific recurring patterns that are present in the modern periodic table

    and 1917". Revista CENIC. Ciencias Químicas. 49 (1): 1–13. "atomic and ionic radius". www.chemguide.co.uk. Retrieved 2022-06-30. Huggins, Maurice L. (April

    Periodic trends

    Periodic trends

    Periodic_trends

  • Fajans' rules
  • Explains the covalent character in molecules

    in 1923, are used to predict whether a chemical bond will be covalent or ionic, and depend on the charge on the cation and the relative sizes of the cation

    Fajans' rules

    Fajans' rules

    Fajans'_rules

  • Caesium chloride
  • Chemical compound

    (Cs+ ionic radius 174 pm for this coordination number, Cl− 181 pm) the CsCl structure can be adopted, when they are different (Na+ ionic radius 102 pm

    Caesium chloride

    Caesium chloride

    Caesium_chloride

  • Unbinilium
  • Theoretical chemical element with atomic number 120 (Ubn)

    and decreasing the metallic and ionic radii; this effect is already seen for radium. On the other hand, the ionic radius of the Ubn2+ ion is predicted to

    Unbinilium

    Unbinilium

  • Pauling's rules
  • Rules to predict ionic compounds' crystal structures

    isolated ion pairs. The sum of the ionic radii determines the cation-anion distance, while the cation-anion radius ratio r + / r − {\displaystyle r_{+}/r_{-}}

    Pauling's rules

    Pauling's_rules

  • Incompatible element
  • Element not easily hosted in a crystal lattice

    phase are known by acronyms. One group includes elements having large ionic radius, such as potassium, rubidium, caesium, strontium, and barium (called

    Incompatible element

    Incompatible_element

  • Organomagnesium chemistry
  • Study of magnesium compounds in chemistry

    Magnesium is the second element in group 2 (alkaline earth metals), and the ionic radius of Mg2+ is 86 pm, which is larger than Be2+ (59 pm) and smaller than

    Organomagnesium chemistry

    Organomagnesium_chemistry

  • Hydroxide
  • Chemical compound (OH–)

    temperatures so as to present itself as a spherical ion, with an effective ionic radius of about 153 pm. Thus, the high-temperature forms of KOH and NaOH have

    Hydroxide

    Hydroxide

    Hydroxide

  • Covalent radius of fluorine
  • ionic character, a result of its small atomic radius and large electronegativity. Therefore, the bond length of F is influenced by its ionic radius,

    Covalent radius of fluorine

    Covalent_radius_of_fluorine

  • Coupled substitution
  • Geological process by which two elements simultaneously substitute into a crystal

    minerals take. Because electrons are donated and received, it is the ionic radius of the element that controls the size and determines how atoms fit together

    Coupled substitution

    Coupled substitution

    Coupled_substitution

  • Bohrium
  • Chemical element with atomic number 107 (Bh)

    configuration, this time analogous to manganese and technetium. The ionic radius of hexacoordinate heptavalent bohrium is expected to be 58 pm (heptavalent

    Bohrium

    Bohrium

  • HSAB theory
  • Chemical theory about acids and bases

    and bases Property Hard acids and bases Soft acids and bases atomic/ionic radius small large oxidation state high low or zero polarizability low high

    HSAB theory

    HSAB_theory

  • Radium
  • Chemical element with atomic number 88 (Ra)

    is one of the less biologically dangerous radium compounds. The large ionic radius of Ra2+ (148 pm) results in weak ability to form coordination complexes

    Radium

    Radium

    Radium

  • Bromine
  • Chemical element with atomic number 35 (Br)

    affinity, enthalpy of dissociation of the X2 molecule (X = Cl, Br, I), ionic radius, and X–X bond length. The volatility of bromine accentuates its very

    Bromine

    Bromine

    Bromine

  • Silicon
  • Chemical element with atomic number 14 (Si)

    single-bond covalent radius of 117.6 pm is intermediate between those of carbon (77.2 pm) and germanium (122.3 pm). The hexacoordinate ionic radius of silicon may

    Silicon

    Silicon

    Silicon

  • Actinide
  • F-block chemical elements

    Abelson in 1940. As in lanthanides (see lanthanide contraction), the ionic radius of actinides monotonically decreases with atomic number (see also actinoid

    Actinide

    Actinide

    Actinide

  • Double layer (surface science)
  • Molecular interface between a surface and a fluid

    consequently an ion's closest approach to the electrode is on the order of the ionic radius. The Stern model has its own limitations, namely that it effectively

    Double layer (surface science)

    Double layer (surface science)

    Double_layer_(surface_science)

  • Cerium anomaly
  • Concentration of cerium vs. other rare-earth metals

    easily than Ce3+ because Ce4+ (ionic radius 0.97Å) has the same charge and a similar ionic radius as Zr4+ (ionic radius 0.84Å). Therefore, the oxidation

    Cerium anomaly

    Cerium_anomaly

  • Lead glass
  • Variety of glass in which lead replaces the calcium content

    tools for photon detection by means of electromagnetic showers. The high ionic radius of the Pb2+ ion renders it highly immobile in the matrix and hinders

    Lead glass

    Lead glass

    Lead_glass

  • Group 12 element
  • Group of chemical elements

    group is unlike the trend in group 2, the alkaline earths, where metallic radius increases smoothly from top to bottom of the group. All three metals have

    Group 12 element

    Group 12 element

    Group_12_element

  • Tetramethylammonium
  • Polyatomic ion (N(CH3)4, charge +1)

    ion is ~0.6 nm; From more accurate physico-chemical measurements, the ionic radius for TMA is given as 0.322 nm; several thermodynamic parameters for the

    Tetramethylammonium

    Tetramethylammonium

    Tetramethylammonium

  • Chlorine
  • Chemical element with atomic number 17 (Cl)

    affinity, enthalpy of dissociation of the X2 molecule (X = Cl, Br, I), ionic radius, and X–X bond length. (Fluorine is anomalous due to its small size.)

    Chlorine

    Chlorine

    Chlorine

  • Iron
  • Chemical element with atomic number 26 (Fe)

    switching to a low-spin configuration, resulting in a 20% decrease in ionic radius so that now it can fit into the porphyrin ring, which becomes planar

    Iron

    Iron

    Iron

  • Mineral
  • Crystalline chemical element or compound formed by geologic processes

    common for the Si4+ to be substituted by Al3+ because of similarity in ionic radius and charge; in those cases, the [AlO4]5− tetrahedra form the same structures

    Mineral

    Mineral

    Mineral

  • Nickel bis(dimethylglyoximate)
  • Chemical compound

    A. Chugaev in 1905. This reaction is fairly selective thanks to the ionic radius of nickel allowing the compact stacking of Ni(dmgH)2 in lattice, causing

    Nickel bis(dimethylglyoximate)

    Nickel bis(dimethylglyoximate)

    Nickel_bis(dimethylglyoximate)

  • Coprecipitation
  • Chemical process

    carrier, resulting in a crystallographic defect; this can happen when the ionic radius and charge of the impurity are similar to those of the carrier. An occlusion

    Coprecipitation

    Coprecipitation

    Coprecipitation

  • Heavy metals
  • Term used for certain metallic elements

    electronegativity and r {\displaystyle r} is its ionic radius. This index gauges the importance of covalent interactions vs ionic interactions for a given metal ion

    Heavy metals

    Heavy metals

    Heavy_metals

  • Nobelium
  • Chemical element with atomic number 102 (No)

    The ionic radius of hexacoordinate and octacoordinate No3+ had been preliminarily estimated in 1978 to be around 90 and 102 pm respectively; the ionic radius

    Nobelium

    Nobelium

  • Solvation shell
  • Solvent interface of a solute

    transport number Ionic radius Water model Poisson–Boltzmann equation Hydration energy Solvation Glueckauf, E. (1955). "The influence of ionic hydration on

    Solvation shell

    Solvation shell

    Solvation_shell

  • Lanthanum strontium manganite
  • the Goldschmidt tolerance factor, which varies with the average A-site ionic radius. Increasing Sr content reduces lattice distortions and modifies the Mn–O–Mn

    Lanthanum strontium manganite

    Lanthanum strontium manganite

    Lanthanum_strontium_manganite

  • Van der Waals radius
  • Size of an atom's imaginary sphere representing how close other atoms can get

    The van der Waals radius, rw, of an atom is the radius of an imaginary hard sphere representing the distance of closest approach for another atom. It is

    Van der Waals radius

    Van_der_Waals_radius

  • Perovskite (structure)
  • Type of crystal structure

    degree of cation ordering is governed by differences in formal charge, ionic radius, and bonding character between the B-site cations, as well as synthesis

    Perovskite (structure)

    Perovskite (structure)

    Perovskite_(structure)

  • Grotthuss mechanism
  • Protons hopping across hydrogen bonds between hydronium ions and water molecules

    Grotthuss mechanism, along with the relative lightness and small size (ionic radius) of the proton, explains the unusually high diffusion rate of the proton

    Grotthuss mechanism

    Grotthuss mechanism

    Grotthuss_mechanism

  • SSZ-13
  • zeolite is 0.38 nm when the size of the oxygen atoms is estimated by the ionic radius (0.135 nm), classifying it as a small pore zeolite. It can adsorb small

    SSZ-13

    SSZ-13

    SSZ-13

  • Lawrencium
  • Chemical element with atomic number 103 (Lr)

    should both be insoluble in water. Due to the actinide contraction, the ionic radius of Lr3+ should be smaller than that of Md3+, and it should elute ahead

    Lawrencium

    Lawrencium

  • Solvation
  • Association of molecules of a solvent with molecules or ions of a solute

    Although early thinking was that a higher ratio of a cation's ion charge to ionic radius, or the charge density, resulted in more solvation, this does not stand

    Solvation

    Solvation

    Solvation

  • Compatibility (geochemistry)
  • Partitioning of elements in a mineral

    Compatibility of an ion is controlled by two things: its valence and its ionic radius. Both must approximate those of the major element for the trace element

    Compatibility (geochemistry)

    Compatibility (geochemistry)

    Compatibility_(geochemistry)

  • Contraction
  • Topics referred to by the same term

    change in temperature Lanthanide contraction, the decrease in size of the ionic radius of lanthanide elements with their growing atomic number Contracted (film)

    Contraction

    Contraction

  • Irving–Williams series
  • Series in chemistry

    ligand. Three explanations are frequently used to explain the series: The ionic radius is expected to decrease regularly from Mn(II) to Zn(II). This is the

    Irving–Williams series

    Irving–Williams_series

  • Ringing rocks
  • Rocks that resonate like a bell when struck

    and sodium cations) is quenched very rapidly. Sodium has a much larger ionic radius than potassium does, so during the quench event the sodium ions pop out

    Ringing rocks

    Ringing_rocks

  • Scandium
  • Chemical element with atomic number 21 (Sc)

    Solid State Ionics. 408 116507. doi:10.1016/j.ssi.2024.116507. Dokiya, Masayuki (2002-12-01). "SOFC system and technology". Solid State Ionics. PROCEEDINGS

    Scandium

    Scandium

    Scandium

  • Cation–π interaction
  • Noncovalent molecular interaction

    interaction energy correlates with the ionic radius, r i o n {\displaystyle r_{\mathrm {ion} }} (non-spherical ionic radii are approximate). This trend supports

    Cation–π interaction

    Cation–π interaction

    Cation–π_interaction

  • Cubic crystal system
  • Crystallographic system where the unit cell is in the shape of a cube

    from two elements whose ions are of roughly the same size (for example, ionic radius of Cs+ = 167 pm, and Cl− = 181 pm). The space group of the caesium chloride

    Cubic crystal system

    Cubic crystal system

    Cubic_crystal_system

  • Magma
  • Hot semifluid material found beneath the surface of Earth

    chemical elements, called incompatible elements, have a combination of ionic radius and ionic charge that is unlike that of the more abundant elements in the

    Magma

    Magma

    Magma

  • Lanthanum
  • Chemical element with atomic number 57 (La)

    2 and LaI, LaH 2 is probably an electride compound. Due to the large ionic radius and great electropositivity of La3+ , there is not much covalent contribution

    Lanthanum

    Lanthanum

    Lanthanum

  • Polonium dioxide
  • Chemical compound

    at its sublimation point, 885 °C. The ionic radius of the Po4+ ion is 1.02 or 1.04 Å; thus, the ratio of the ionic radii Po4+ /O2− is about 0.73, the lower

    Polonium dioxide

    Polonium dioxide

    Polonium_dioxide

  • Strontium nitrate
  • Chemical compound

    significantly better than using glycolic acid alone. As a divalent ion with an ionic radius similar to that of Ca2+ (1.13 and 0.99 Å respectively), Sr2+ ions mimic

    Strontium nitrate

    Strontium nitrate

    Strontium_nitrate

  • Actinium
  • Chemical element with atomic number 89 (Ac)

    Mavrik; Kersting, Annie B. (2021). "The coordination properties and ionic radius of actinium: A 120-year-old enigma". Coordination Chemistry Reviews.

    Actinium

    Actinium

    Actinium

  • Tooth decay
  • Deformation of teeth due to acids produced by bacteria

    promote tooth decay. Besides lead, all atoms with electrical charge and ionic radius similar to bivalent calcium, such as cadmium, mimic the calcium ion,

    Tooth decay

    Tooth decay

    Tooth_decay

  • Supporting electrolyte
  • Inert electrolyte: non-redox active and non complexing ligand

    central chlorine (+7) atom by the four surrounding oxygen atoms. The ionic radius of the perchlorate anion is about the same as this of the iodide anion

    Supporting electrolyte

    Supporting_electrolyte

  • Rubidium
  • Chemical element with atomic number 37 (Rb)

    is the 18th most abundant element in seawater. Because of its large ionic radius, rubidium is one of the "incompatible elements". During magma crystallization

    Rubidium

    Rubidium

    Rubidium

  • Caesium auride
  • Chemical compound

    but slightly larger due to the larger Au− ionic radius compared to Cl− . The bonding is predominantly ionic, as found by X-ray photoelectron spectroscopy

    Caesium auride

    Caesium auride

    Caesium_auride

  • Forsterite
  • Magnesium end-member of olivine, a nesosilicate mineral

    iron(II) ion has the same charge as magnesium ion and it has a very similar ionic radius to magnesium. Consequently, Fe2+ can replace the magnesium ion in the

    Forsterite

    Forsterite

    Forsterite

  • Hafnium
  • Chemical element with atomic number 72 (Hf)

    {HfI4->[1700~^{\circ }{\text{C}}]Hf{}+2I2}}} Due to the lanthanide contraction, the ionic radius of hafnium(IV) (0.78 ångström) is almost the same as that of zirconium(IV)

    Hafnium

    Hafnium

  • Yttrium compounds
  • Chemical substances containing yttrium

    Br). Most of the salts from strong acids are soluble in water. The ionic radius (0.900) of yttrium in [Y(H2O)6]3+ is similar to that of holmium [Ho(H2O)6]3+

    Yttrium compounds

    Yttrium_compounds

  • Otolith
  • Inner-ear structure in vertebrates which detects acceleration

    isotopic signatures are strontium due to the same charge and similar ionic radius to calcium; however, scientists can study multiple trace elements within

    Otolith

    Otolith

    Otolith

  • Ionization energy
  • Energy needed to remove an electron

    due to the lanthanide contraction (for lanthanides). This decrease in ionic radius is associated with an increase in ionization energy in turn increases

    Ionization energy

    Ionization energy

    Ionization_energy

  • Zinc
  • Chemical element with atomic number 30 (Zn)

    salts have the same crystal structure, and in other circumstances where ionic radius is a determining factor, the chemistry of zinc has much in common with

    Zinc

    Zinc

    Zinc

  • Superheavy element
  • Chemical elements with atomic numbers from 104 to 120

    have ionic radii between those of their 5d transition metal homologs and their actinide pseudohomologs: for example, Rf4+ is calculated to have ionic radius

    Superheavy element

    Superheavy_element

  • Potassium perchlorate
  • Chemical compound

    combination with one other medication. This application exploits the similar ionic radius and hydrophilicity of perchlorate and iodide. Perchlorate ion, a common

    Potassium perchlorate

    Potassium perchlorate

    Potassium_perchlorate

  • Metalloprotein
  • Protein that contains a metal ion cofactor

    cooperative effect due to the higher crystal field splitting and smaller ionic radius of Fe2+ in the oxyhemoglobin moiety. Hemerythrin is another iron-containing

    Metalloprotein

    Metalloprotein

    Metalloprotein

  • Dubnium
  • Chemical element with atomic number 105 (Db)

    oxidation state should be slightly lower than that of tantalum and the ionic radius of dubnium should increase compared to tantalum; this has a significant

    Dubnium

    Dubnium

  • Einsteinium(III) oxide
  • Chemical compound

    cubic form has lattice parameter a = 1076.6 ± 0.6 pm; this allows the ionic radius of the Es3+ ion to be calculated as 92.8 pm. The other two forms are

    Einsteinium(III) oxide

    Einsteinium(III) oxide

    Einsteinium(III)_oxide

  • Polonide
  • Chemical compound containing polonium

    also been reported. The effective radius of the polonide ion (Po2−) can be calculated from the Shannon (1976) ionic radii of the cations: 216 pm for 4-coordination

    Polonide

    Polonide

    Polonide

  • Oxime
  • Organic compounds of the form >C=N–OH

    for detection of nickel ions, which is fairly selective thanks to the ionic radius of nickel allowing the compact stacking of Ni(dmgH)2 in lattice, causing

    Oxime

    Oxime

    Oxime

  • ZBLAN
  • Type of metal fluoride glass

    that results from the filling of the f subshell and leads to a smaller ionic radius. Substituting zirconium by hafnium makes an easy way to adjust the numerical

    ZBLAN

    ZBLAN

    ZBLAN

  • Hassium
  • Chemical element with atomic number 108 (Hs)

    comparison, Os+ lacks a 6s electron compared to the neutral atom. The ionic radius (in oxidation state +8) of hassium is greater than that of osmium because

    Hassium

    Hassium

  • Calcium battery
  • Battery with a calcium electrode

    for Ca2+ to move through the lattice. Calcium's divalency and large ionic radius necessitates intercalation hosts with relatively open crystal frameworks

    Calcium battery

    Calcium_battery

  • Hafnium compounds
  • Any chemical compound having at least one atom of hafnium

    containing the element hafnium (Hf). Due to the lanthanide contraction, the ionic radius of hafnium(IV) (0.78 ångström) is almost the same as that of zirconium(IV)

    Hafnium compounds

    Hafnium_compounds

  • Palenzonaite
  • Rare vanadinate mineral

    chains or sheets. Their mean Z–O distance follows the expected trend with ionic radius (shorter for Si4+, longer for As5+/V5+). Palenzonaite shows up as a rare

    Palenzonaite

    Palenzonaite

    Palenzonaite

AI & ChatGPT searchs for online references containing IONIC RADIUS

IONIC RADIUS

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IONIC RADIUS

  • Sade
  • Girl/Female

    African, American, Australian, British, Chinese, English, Finnish

    Sade

    Sweetly Singing; Honor Confers a Crown; Princess; Beam; Ray; Sparkle; Radius; Ray of Light

    Sade

  • Ionia
  • Girl/Female

    Greek

    Ionia

    Amethyst.

    Ionia

  • Gentry
  • Surname or Lastname

    English

    Gentry

    English : nickname, sometimes perhaps ironic, from Middle English, Old French genterie ‘nobility of birth or character’. Compare Gentle.

    Gentry

  • Wormwood
  • Surname or Lastname

    English

    Wormwood

    English : of uncertain origin; possibly a topographic name for someone who lived where wormwood (Artemesia absinthium) grew, Middle English wormod, or a metonymic occupational name for a herbalist. In the Middle Ages wormwood was variously used as a tonic and vermifuge, in brewing ale, and to protect clothes and linen from moths and fleas.

    Wormwood

  • Large
  • Surname or Lastname

    English and French

    Large

    English and French : nickname (literal or ironic) meaning ‘generous’, from Middle English, Old French large ‘generous’, ‘free’ (Latin largus ‘abundant’). The English word came to acquire its modern sense only gradually during the Middle Ages; it is used to mean ‘ample in quantity’ in the 13th century, and the sense ‘broad’ first occurs in the 14th. This use is probably too late for the surname to have originated as a nickname for a fat man.

    Large

  • YAVAN
  • Male

    Hebrew

    YAVAN

    (יָוָן) Hebrew name YAVAN means "Ionia, Greece." In the bible, this is a place name and the name of a grandson of Noah. The English form is Javan.

    YAVAN

  • Peridhi
  • Girl/Female

    Hindu, Indian, Sanskrit

    Peridhi

    Radius; Limits

    Peridhi

  • Rich
  • Surname or Lastname

    English

    Rich

    English : nickname for a wealthy man (or perhaps in some cases an ironic nickname for a pauper), from Middle English, Old French riche ‘rich’, ‘wealthy’ (of Germanic origin, akin to Germanic rīc ‘power(ful)’).English : from a medieval personal name, a short form of Richard, or less commonly of some other compound name with this first element.English : habitational name from the lost village of Riche in Lincolnshire, apparently so named from an Old English element ric ‘stream’ or, here, ‘drainage channel’. Some early forms of the surname, such as Ricardus de la riche (Hampshire 1200) and Alexander atte Riche (Sussex 1296) probably derive from minor places named with this element in southern counties, as for example Glynde Reach in Sussex.Americanized form of German Reich.

    Rich

  • Toogood
  • Surname or Lastname

    English

    Toogood

    English : apparently a nickname from Middle English to ‘exceedingly’ + gode ‘good’, perhaps ironic in application.

    Toogood

  • Pettyjohn
  • Surname or Lastname

    English

    Pettyjohn

    English : from Old French petit ‘little’ + the personal name John, hence a nickname for a little man (or an ironic nickname for a big man; compare the character Little John in the legend of Robin Hood) named John.

    Pettyjohn

  • Holliman
  • Surname or Lastname

    English

    Holliman

    English : nickname, perhaps ironic, from Middle English holy ‘holy’ + man ‘man’.

    Holliman

  • Devine
  • Surname or Lastname

    Irish

    Devine

    Irish : reduced Anglicized form of either of two Gaelic names, Ó Duibhín ‘descendant of Duibhín’, a byname meaning ‘little black one’, or Ó Daimhín ‘descendant of Daimhín’, a byname meaning ‘fawn’, ‘little stag’. These are attenuated versions of Ó Dubháin and Ó Damháin, and are the phonetic origin of Anglicizations with an internal v (as opposed to w, as in Dewan, or monosyllabic forms with an o or u) (see Doane).English and French : nickname, of literal or ironic application, from Middle English, Old French devin, divin ‘excellent’, ‘perfect’ (Latin divinus ‘divine’).

    Devine

  • JAVAN
  • Male

    English

    JAVAN

    Anglicized form of Hebrew Yavan, JAVAN means "Ionia, Greece." In the bible, this is a place name and the name of a grandson of Noah.

    JAVAN

  • Gentle
  • Surname or Lastname

    English

    Gentle

    English : nickname, sometimes ironic, from Middle English, Old French gentil ‘well born’, ‘noble’, ‘courteous’ (Latin gentilis, from gens ‘family’, ‘tribe’, itself from the root gen- ‘to be born’).

    Gentle

  • Bellamy
  • Surname or Lastname

    English and Irish (of Norman origin), French

    Bellamy

    English and Irish (of Norman origin), French : literal or ironic nickname meaning ‘fine friend’, from French beau ‘fair’, ‘handsome’ (bel before a vowel) + ami ‘friend’.

    Bellamy

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IONIC RADIUS

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IONIC RADIUS

Online names & meanings

  • Sabtah
  • Biblical

    Sabtah

    a going about or circuiting; old age

  • Ataur-Rahman
  • Boy/Male

    Arabic, Muslim

    Ataur-Rahman

    Gift of the Merciful / Allah

  • Sardites
  • Biblical

    Sardites

    removing a dissension

  • HALINA
  • Female

    Hawaiian

    HALINA

     Hawaiian name HALINA means "resemblance." Compare with another form of Halina.

  • Khorshed
  • Boy/Male

    Arabic, Indian, Muslim, Parsi

    Khorshed

    Sun; Shining Sun; Cheerful

  • THOMASINA
  • Female

    English

    THOMASINA

    Medieval feminine form of English Thomas, THOMASINA means "twin." 

  • Cavana
  • Girl/Female

    Irish

    Cavana

    From Cavan.

  • Madhupreet
  • Boy/Male

    Indian, Punjabi, Sikh

    Madhupreet

    Love for Honey; Sweet

  • Umid |
  • Boy/Male

    Muslim

    Umid |

    Hope, Expectation, Wish, Desire, Trust, Greed

  • Elias
  • Biblical

    Elias

    God the Lord, the strong Lord (same as Elijah)

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IONIC RADIUS

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Other words and meanings similar to

IONIC RADIUS

AI search in online dictionary sources & meanings containing IONIC RADIUS

IONIC RADIUS

  • Iodic
  • a.

    to, or containing, iodine; specif., denoting those compounds in which it has a relatively high valence; as, iodic acid.

  • Digestive
  • n.

    A tonic.

  • Conic
  • n.

    A conic section.

  • Ionic
  • a.

    Of or pertaining to Ionia or the Ionians.

  • Bolster
  • n.

    The rolls forming the ends or sides of the Ionic capital.

  • Ionic
  • n.

    The Ionic dialect; as, the Homeric Ionic.

  • Ionian
  • a.

    Of or pertaining to Ionia or the Ionians; Ionic.

  • Ionic
  • a.

    Pertaining to the Ionic order of architecture, one of the three orders invented by the Greeks, and one of the five recognized by the Italian writers of the sixteenth century. Its distinguishing feature is a capital with spiral volutes. See Illust. of Capital.

  • Horn
  • n.

    The Ionic volute.

  • Sol-fa
  • n.

    The gamut, or musical scale. See Tonic sol-fa, under Tonic, n.

  • Tonic
  • a.

    Of or pertaining to tension; increasing tension; hence, increasing strength; as, tonic power.

  • Ionic
  • n.

    Ionic type.

  • Ionic
  • n.

    A verse or meter composed or consisting of Ionic feet.

  • Tonic
  • n.

    A tonic element or letter; a vowel or a diphthong.

  • Roborant
  • n.

    A strengthening medicine; a tonic.

  • Tonical
  • a.

    Tonic.

  • Conics
  • n.

    Conic sections.

  • Ionic
  • a.

    Of or pertaining to an ion; composed of ions.

  • Ionic
  • n.

    A foot consisting of four syllables: either two long and two short, -- that is, a spondee and a pyrrhic, in which case it is called the greater Ionic; or two short and two long, -- that is, a pyrrhic and a spondee, in which case it is called the smaller Ionic.

  • Iodate
  • n.

    A salt of iodic acid.