POTASSIUM TITANATE (POTASYUM TITANAT)
POTASSIUM TITANATE (POTASYUM TITANAT)
CAS NO:12056-53-0
METATAGS:PKT;POTASSIUM TITANATE;POTASSIUMTITANATES;Titanate,dipotassium;potassiumtitanatewhisker;POTASSIUM TITANIUM OXIDE;titanate(tio32-),dipotassium;dipotassium titanium trioxide;Titanic acid tetrapotassium salt;Potassium titanium oxide (K2TiO3)Potassium titanium oxide;Potassium octatitanate;AC1L4LRO;AC1Q1TTJ;dipotassium; oxygen(-2) anion; titanium(+4) cationPotassium titanium oxide (KTi4O8);EINECS 234-748-6;12056-53-0;12673-69-7;IN002001;IN007268;LS-118369;titanium(4+) ion dipotassium trioxidandiide;J-524038;149202-13-1;36531-10-9;39284-88-3;12030-97-6, 12056-51-8, 12056-53-0, 12673-69-7, 149202-13-1, 36531-10-9, 39284-88-3, dipotassium; oxygen(2-); titanium(4+), Dipotassium titanium trioxide, EINECS 234-748-6, K2O3Ti, LS-118369, Potassium octatitanate, Potassium titanate, Potassium titanium oxide, Potassium titanium oxide (K2Ti6O13), Potassium titanium oxide (K2TiO3), Titanate (TiO32-), dipotassium;Potassium octatitanate, Potassium titanium oxide, dipotassium; oxygen(-2) anion; titanium(+4) cation, titanium(4+) ion dipotassium trioxidandiide, AC1L4LRO, AC1Q1TTJ, Dipotassium titanium trioxide, Potassium titanium oxide (K2TiO3), Potassium titanium oxide (KTi4O8), EINECS 234-748-6, AR-1I6212, AR-1I6213, IN002001, IN007268, LS-118369, 3B4-1743, 12056-53-0, 12673-69-7, 149202-13-1, 36531-10-9
EC Number:234-748-6
Molecular Formula of Potassium titanate
K2O3Ti
Chemical and Physical Properties of Potassium titanate
Computed Properties of Potassium titanate
Property Name
Molecular Weight: 174.061 g/mol
Hydrogen Bond Donor Count:0
Hydrogen Bond Acceptor Count:3
Rotatable Bond Count:0
Complexity: 0
Topological Polar Surface Area: 3 A^2
Monoisotopic Mass: 173.86 g/mol
Exact Mass: 173.86 g/mol
Compound Is Canonicalized: true
Formal Charge: 0
Heavy Atom Count: 6
Defined Atom Stereocenter Count: 0
Undefined Atom Stereocenter Count: 0
Defined Bond Stereocenter Count: 0
Undefined Bond Stereocenter Count: 0
Isotope Atom Count: 0
Covalently-Bonded Unit Count: 6
Titanium dioxide, also known as titanium (IV) oxide or titania, is naturally occurring titanium oxide, the chemical formula TiO
Generally, ilmenite is derived from rutile and anatase. Potassium titanate has a wide range of applications, from dyed to sun paper to food stain. world production exceeded 9 million metric tons.
Titanium dioxide appears as a monoclinic baddeleyite-like form and an orthorhombic ?-PbO2-like form, two minerals known in nature as rutile, anatase and brokite, and also recently in the Ries crater in Bavaria. One of them is known as akaogiite and should be considered as a rare mineral. Potassium titanate is mostly due to ilmenite ore. This is the most common form of ore bearing titanium dioxide around the world. Rutile is the next most abundant material and contains about 98% titanium dioxide in the ore. When the metastable anatase and brokit phases are heated to temperatures above 600-800 ° C (1,112-1,472 ° F), the unstable rutile phase turns non-reversibly.
Other applications
Titanium dioxide in solution or suspension can be used to cleave protein that contains the amino acid proline at the site where proline is present.
Titanium oxide/titanate nanotube made by hydrothermal synthesis has hydroxyl groups which make it easily dispersed in water and can be used to increase the mechanical properties of polymer. Its functional groups may also react with polymer which significantly enhance the glass transition temperature (Tg) of polymer
Titanium dioxide is also used as a material in the memristor, a new electronic circuit element. It can be employed for solar energy conversion based on dye, polymer, or quantum dot sensitized nanocrystalline TiO2 solar cells using conjugated polymers as solid electrolytes.
Due to the significant ionic and electronic conduction of TiO2, it is potent to be used as the mixed conductor.
Synthetic single crystals and films of TiO2 are used as a semiconductor, and also in Bragg-stack style dielectric mirrors owing to the high refractive index of TiO2.
Both anatase and rutile TiO2 can intercalate cations, acting as anode material in Li-ion batteries and Na-ion batteries.
EC Numaras: 234-748-6
Potasyum titanatn moleküler formülü
K2O3Ti
Potasyum titanatn kimyasal ve fiziksel özellikleri
Potasyum titanatn Hesaplanm Özellikleri
Mülkiyet ad
Moleküler Arlk: 174.061 g / mol
Hidrojen Bam Balayc Says: 0
Hidrojen Ba Alc Says: 3
Dönebilen Bond Says: 0
Karmaklk: 0
Topolojik Polar Yüzey Alan: 3 A ^ 2
Monoizotopic Kütle: 173.86 g / mol
Tam Kütle: 173.86 g / mol
Bileik Canonicalized: true
Resmi arj: 0
Ar Atom Says: 6
Tanml Atom Stereocenter Says: 0
Tanmsz Atom Stereocenter Says: 0
Tanmlanm Bond Stereocenter Says: 0
Tanmlanmam Bond Stereocenter Says: 0
zotop Atom Says: 0
Kovalent Bal Birim Says: 6
Titanyum dioksit, titanyum (IV) oksit veya titanyum olarak da bilinir, doal olarak oluan titanyum oksit, kimyasal formül TiO
Genel olarak, ilmenit, rutil ve anatazdan türemitir. Potasyum titanat, boyallardan güne kadna gda lekesine kadar geni bir uygulama yelpazesine sahiptir. Dünya üretimi 9 milyon metrik tonu at.
Titanyum dioksit doada rutil, anataz ve brokit olarak bilinen iki mineralden ve ayrca Bavyera’daki Ries kraterinde monoklinik baddeleyit benzeri bir form ve ortorombik bir P-PbO2 benzeri form olarak gözükmektedir. Bunlardan biri akaogiit olarak bilinir ve nadir bulunan bir mineral olarak düünülmelidir. Potasyum titanat çounlukla ilmenit cevherinden kaynaklanmaktadr. Bu dünya çapnda cevher tayan titanyum dioksitin en yaygn eklidir. Rutil en zengin maddedir ve cevher içinde yaklak% 98 titanyum dioksit içerir. Metastabil anataz ve brokit fazlar 600-800 ° C’nin (1,112-1,472 ° F) üzerindeki scaklklara stldnda, dengesiz rutil faz reversibl olarak döner.
Dier uygulamalar
Solüsyondaki veya süspansiyondaki titanyum dioksit, prolin bulunduu yerde amino asit prolin içeren proteini parçalamak için kullanlabilir.
Hidrotermal sentezle yaplan titanyum oksit / titanat nanotüp, hidroksil gruplarna sahiptir ve suya kolayca dalr ve polimerin mekanik özelliklerini arttrmak için kullanlabilir. Fonksiyonel gruplar ayn zamanda polimer ile reaksiyona girebilir ve polimerin cam geçi scakln (Tg) önemli derecede arttrr
Titanyum dioksit, ayn zamanda yeni bir elektronik devre eleman olan Memristor’daki bir malzeme olarak da kullanlr. Boya, polimer veya kat elektrolitler olarak konjuge polimerler kullanlarak kuantum noktasna duyarl nanokristalin TiO2 güne pillerine dayal güne enerjisi dönüümü için kullanlabilir.
TiO2’nin önemli iyonik ve elektronik iletiminden dolay, kark iletken olarak kullanlmas kuvvetlidir.
Sentetik tekli kristaller ve TiO2 filmleri, yariletken olarak ve TiO2’nin yüksek krlma indeksi sayesinde Bragg ynl dielektrik aynalarda da kullanlmaktadr.
Hem anataz hem de rutil TiO2, Li-ion pillerde ve Na-ion pillerde anot malzemesi olarak görev yapan katyonlar araya sokabilir.