about
Mechanical properties, in vitro corrosion and biocompatibility of newly developed biodegradable Mg-Zr-Sr-Ho alloys for biomedical applicationsBiological Chemistry of Hydrogen SelenidePost-perovskite Transition in Anti-structureSelenium in chemistry and biochemistry in comparison to sulfur.Reactivity studies of group 15 Zintl ions towards homoleptic post-transition metal organometallics: a 'bottom-up' approach to bimetallic molecular clusters.Evidence of superdense aluminium synthesized by ultrafast microexplosion.Lattice Distortion in In3SbTe2 Phase Change Material with Substitutional Bi.Materials Prediction via Classification LearningStructural phase transitions in Bi2Se3 under high pressureControlling residual hydrogen gas in mass spectra during pulsed laser atom probe tomographySynthesis of two-dimensional Tl(x)Bi(1-x) compounds and Archimedean encoding of their atomic structure.Easily doped p-type, low hole effective mass, transparent oxides.Directly Predicting Water Quality Criteria from Physicochemical Properties of Transition Metals.Concentration Effect of Reducing Agents on Green Synthesis of Gold Nanoparticles: Size, Morphology, and Growth MechanismAnomalous dynamics of interstitial dopants in soft crystals.Ferroelectricity and antiferroelectricity of doped thin HfO2-based films.The impact of Ti and temperature on the stability of Nb5Si3 phases: a first-principles study.Experimental setup for the laboratory investigation of micrometeoroid ablation using a dust accelerator.Computational investigation on MB n (M = Li-Cs, Be-Ba, Sc-La and Ti; n = 28 and 38).Packing density of HS(CH2)(n)COOH self-assembled monolayers.QSARINS-chem: Insubria datasets and new QSAR/QSPR models for environmental pollutants in QSARINS.Microstructure, mechanical property, corrosion behavior, and in vitro biocompatibility of Zr-Mo alloys.Claudin-8 modulates paracellular permeability to acidic and basic ions in MDCK II cells.Doping colloidal bcc crystals - interstitial solids and meta-stable clusters.Chemical Potential Tuning and Enhancement of Thermoelectric Properties in Indium Selenides.Kinetic energy decomposition scheme based on information theory.Properties of atoms under pressure: bonded interactions of the atoms in three perovskites.Synthesis and luminescence behaviour of novel heterodecanuclear silver(I)-rhenium(I) alkynyl complexes. X-ray crystal structures of [Ag6(mu-dppm)4[mu3-C[triple bond]CC[triple bond]C-Re(Me2bpy)(CO)3]4](PF6)2 and [Ag6(mu-dppm)4[mu3-C[triple bond]CC[trInteraction of gas molecules with Ti-benzene complexes.On asymptotic behavior of density functional theory.Thermodynamic cycles of the alkali metal-ligand complexes central to electride formation.Prediction of seebeck coefficient for compounds without restriction to fixed stoichiometry: A machine learning approach.Crystal and electronic structure of the lithium-rich silver silicide Li12Ag(1-x)Si4 (x=0.15).Ionic Liquid Induced Band Shift of Titanium Dioxide.A theoretical study on novel alkaline earth-based excess electron compounds: unique alkalides with considerable nonlinear optical responses.Synthesis and theoretical investigation of a 1,8-bis(bis(diisopropylamino)cyclopropeniminyl)naphthalene proton sponge derivative.On two different objectives of the concepts of ionic radii.Optimal surface functionalization of silicon quantum dots.The excitation energies, ionization potentials, and oscillator strengths of neutral and ionized species of Uuq (Z=114) and the homolog elements Ge, Sn, and Pb.{[CuSn5 Sb3 ](2-) }2 : A Dimer of Inhomogeneous Superatoms.
P2860
Q27315176-A988E124-8828-4EB1-A6F1-B0EE63E9256DQ28069453-8D39E826-52A3-458F-A4F6-0C013755482CQ28818307-E4EAC382-9DA3-448B-8DD8-5BB0FC2496C5Q30319747-75199B07-C399-4E08-B5E5-111D332D0E54Q33519936-F73607ED-0095-4FBC-803C-498EB164209CQ34001518-01C02730-7DD8-4CF1-8CE9-EA52C467240BQ35935916-2FD2E406-4EB5-40EE-A9E2-E81185D0E345Q35993409-D479B3EA-5B9E-4CBF-93BA-A1422B58E702Q36237646-9474E2E6-3550-44E4-A025-64FB36788888Q36303662-DA274822-C74E-4210-91B7-B900325EF1A5Q36500114-DE271EC8-7B4C-4239-97F9-5A88070BDE70Q36555521-E57DD0B9-BE44-4738-B7AC-4B3856CF3BC7Q36645318-A6B4A88B-F112-44BA-8BBC-718927D9E1AAQ36845061-4F3E0052-2AF3-4599-86BF-388A99DF3CFDQ37473643-D1B8C158-68F5-43EB-A7C7-5979E98AC81AQ38428643-8F708FFD-CB47-4318-A377-DCAB1093DFF2Q38652344-0F84F489-B525-4F19-9AA7-197A402336BFQ38735635-B20A35A3-9A6E-4B65-AD5C-2FBA3247B21DQ38841080-F0080513-C56F-4B1B-B8B7-3F7B887EAA02Q39116352-026D2015-0C88-4A11-9A31-8CB468DE4722Q39237832-B1594B5B-C1D6-4D48-B584-1C76E1D3FA1EQ39246424-CDF823FE-6CFA-4AB5-B9FF-FDB7B37081A0Q40345251-8ADBF5C8-9D7E-4AE1-940A-762C5B28EDD1Q42171798-14685177-2A20-4D48-8B39-91A3E3AAFF3FQ42228271-C5F76D5B-A809-4534-9C93-AAC72BA889D0Q42261898-FCCD8E06-AB33-454A-BAB9-3A059ADEF53FQ43655168-827C1086-CB00-4C5D-BD35-C27E5F214969Q44638103-9644B61C-5B0D-4833-ACE5-E0D0E839147EQ44943322-81F4C6FE-D5D5-41A2-887D-3DD50067DC6EQ45774553-8C3B2879-D0F7-490B-87DF-11CEF5BD06A0Q45945302-4B3E4E60-26CB-4F2F-B91E-7147A6D6D439Q45945352-E39E5226-7959-488B-BCC5-64B485F23A1CQ46165379-115BE55E-4875-4DB2-BB1F-A70B9F0D453AQ46503638-5FB16FA3-0D16-484C-8406-F8F9B44E4805Q46787297-D30E26E4-551F-4EAC-BFE1-D4A5F5EF09C4Q46957158-4E930208-A397-48CE-981A-1CDC908A027FQ46985543-CE18993D-62D0-4DBE-9198-C5DBD05EE132Q47594692-159A3F5E-029B-4824-9F64-F5D7514D6F5BQ47806785-FAFF9563-49E2-49A7-8B03-52B966B6128CQ48054855-99421435-3D7B-4BE1-9666-DE04A193E899
P2860
description
1964 nî lūn-bûn
@nan
1964年の論文
@ja
1964年学术文章
@wuu
1964年学术文章
@zh
1964年学术文章
@zh-cn
1964年学术文章
@zh-hans
1964年学术文章
@zh-my
1964年学术文章
@zh-sg
1964年學術文章
@yue
1964年學術文章
@zh-hant
name
Atomic Radii in Crystals
@en
Atomic Radii in Crystals
@nl
type
label
Atomic Radii in Crystals
@en
Atomic Radii in Crystals
@nl
prefLabel
Atomic Radii in Crystals
@en
Atomic Radii in Crystals
@nl
P356
P1476
Atomic Radii in Crystals
@en
P2093
J. C. Slater
P304
P356
10.1063/1.1725697
P407
P577
1964-11-15T00:00:00Z