LBOI
Landolt-Boernstein Search
  Home  |   Search  |   Indices  |   Indexed Volumes  
scidex

Chemical Name


K3O4P (potassium phosphate) (K3O4P)

Compound Descriptions:

Structure Drawing
Formula:K3O4P
Element System:K-O-P
Element Names:Oxygen, Phosphorus, Potassium
Molecular Weight:212.266 g/mol
Name(s):K3O4P (potassium phosphate)
Phosphoric acid, tripotassium salt
Potassium orthophosphate
Potassium phosphate (K3PO4)
Potassium tribasic phosphate
Tripotassium orthophosphate
Tripotassium phosphate
potassium phosphate, tribasic
Potassium phosphate tribasic
Trikaliumorthophosphat
tert.-Kaliumphosphat
tri-Kaliumphosphat
Trikaliumphosphat
Dreibasisches Kaliumphosphat
Trikaliummonophosphat
E 340
CAS-RN:7778-53-2, 44042-47-9
EINECS:231-907-1 EINECS
Classification:no charge; 4fragments; ionic

European Regulations

1 matching entries in european regulations: ECHA-pre

Derivatives / Analogues

Derivativeacid: orthophosphoric acid 
Analogueother metal: Phosphoric acid trilithium salt 
Analogueother metal: Natrium-o-phosphat,tert. 

Landolt-Börnstein Citations:

Mechanical Properties

 Ternary systems: inorganic components A, B, and water: AgBr - J2: Vol. IV/1a 2.2.1:373, p.666 (mix)IV/1a
 Diffusion of Gas in Electrolyte Solution - Diffusion of oxygen (1); water (2); potassium phosphate (3): Vol. IV/15A 6.1.2:1807 (mix)IV/15A

References

IV/15A
Short: IV/15A
Title: Diffusion in Gases, Liquids and Electrolytes: Gases in Gases, Liquids and their Mixtures
Author: Winkelmann, J
Editor: Lechner, Manfred Dieter
Source: Landolt-Börnstein, New Series
Volume: IV/15A
Year: 2007
Keyword: binary mixture; diffusion; electrolyte; gas; liquid; quaternary mixture; self-diffusion; supercritical fluid system; ternary mixture; vapor
ISBN: 978-3-540-62429-5 (print)
ISBN: 978-3-540-49718-9 (online)
Internet Resource: doi:10.1007/978-3-540-49718-9
RefComment: VIII, 409 p., Hardcover
RefComment: Written for: Science and engineers in the fields of physics, chemistry, physical chemistry, and material sciences
Abstract: Diffusion – defined as mass, amount, or particle transport process – is the most essential transport property besides viscosity and thermal conductivity. Diffusion is widely used in nature, technical and scientific applications, ranging from diffusion in all kinds of gases, liquids, solids, electrolytes and their mixtures. Due to the large amount of data, the volume LB IV/15 "Diffusion in Gases, Liquids, and Electrolytes" is divided into three subvolumes. Part A: Gases in Gases, Liquids and their Mixtures; Part B: Liquids in Liquids and Liquid Mixtures; Part C: Ions and Electrolytes in Liquids, Electrolytes and Molten Salts. The presented subvolume A includes the main chapters Measurement Methods, Diffusion in Pure Gases, Diffusion in Gaseous Mixtures, Diffusion of Gas/Vapor in Gases or Liquids and Diffusion of Gases in Solution. Due to the very different and widespread measurement methods, a precise description of these methods is given.
IV/1a
Short: IV/1a
Title: Densities of Liquid Systems: Nonaqueous Systems and Ternary Aqueous Systems
Author: Lacmann, R.; Synowietz, C.
Editor: Schäfer, Kl.
Source: Landolt-Börnstein, New Series
Volume: IV/1a
Year: 1974
ISBN: 3-540-06269-6
ISBN: 978-3-540-06269-1
Internet Resource: DOI:10.1007/b20003
RefComment: X, 716 pages. Hardcover
Abstract: Volume IV/1 contains information on the densities of liquid systems. It may be considered as a supplement to volume II/1 of the 6th Edition, which contains only a few data on nonaqueous systems. Data are not listed for all systems but primarily for those of greater interest where data for a larger range of concentrations were available.
EINECS
Short: EINECS
Title: EINECS (European Inventory of Existing Commercial Chemical Substances)
Source: Official Journal of the European Communities
Volume: C 146 A (15.06.1990)
Page: 1
Year: 1990
Publish_Date: 1990/06/15

  File created on 2009/18/08 by LCI Publisher GmbH (Gaja Peters, Inga Thede, Volkmar Vill, Ron Zenczykowski)
  © 2009   Landolt Börnstein,   Springer-Verlag Berlin Heidelberg