|
|
 |
|
Pioneers in the industry, we offer Tetrafluoborate Chemical such as Ammonium Tetrafluoborate, Ferrous Tetrafluoborate, Iron Tetrafluoborate, Lithium Tetrafluoborate, Potassium Tetrafluoborate, Sodium Tetrafluoborate and many more items from India.
|
|
| 
| Ammonium Tetrafluoborate CAS No 1303-96-4
Application / Uses Preparation
The utility of BF4− arises because its salts are often more soluble in organic solvents than the related nitrate or halide salts. Furthermore, BF4− is less nucleophilic and basic than nitrates and halides. Thus, when using salts of BF4−, one can usually assume that the cation is the reactive agent and this tetrahedral anion is inert.
|
|
| Ferrous Tetrafluoborate CAS No 15283-51-9
Application / Uses Preparation
The utility of BF4− arises because its salts are often more soluble in organic solvents than the related nitrate or halide salts. Furthermore, BF4− is less nucleophilic and basic than nitrates and halides. Thus, when using salts of BF4−, one can usually assume that the cation is the reactive agent and this tetrahedral anion is inert.
|
|
| Iron Tetrafluoborate CAS No 15283-51-9
Application / Uses Preparation
The utility of BF4− arises because its salts are often more soluble in organic solvents than the related nitrate or halide salts. Furthermore, BF4− is less nucleophilic and basic than nitrates and halides. Thus, when using salts of BF4−, one can usually assume that the cation is the reactive agent and this tetrahedral anion is inert.
|
|
| Lithium Tetrafluoborate CAS No 14283-07-9
Application / Uses Preparation
Lithium tetrafluoborate is a chemical compound with the formula LiBF4. It can be dissolved in propylene carbonate, dimethoxyethane, and/or gamma-butyrolactone for use as an electrolyte in lithium batteries.
|
|
| Potassium Tetrafluoborate CAS No 14075-53-7
Application / Uses Preparation
The utility of BF4− arises because its salts are often more soluble in organic solvents than the related nitrate or halide salts. Furthermore, BF4− is less nucleophilic and basic than nitrates and halides. Thus, when using salts of BF4−, one can usually assume that the cation is the reactive agent and this tetrahedral anion is inert.
|
|
| Sodium Tetrafluoborate CAS No 13755-29-8
Application / Uses Preparation
The utility of BF4− arises because its salts are often more soluble in organic solvents than the related nitrate or halide salts. Furthermore, BF4− is less nucleophilic and basic than nitrates and halides. Thus, when using salts of BF4−, one can usually assume that the cation is the reactive agent and this tetrahedral anion is inert.
|
|
| Zinc Tetrafluoborate CAS No 13826-88-5
Application / Uses Preparation
The utility of BF4− arises because its salts are often more soluble in organic solvents than the related nitrate or halide salts. Furthermore, BF4− is less nucleophilic and basic than nitrates and halides. Thus, when using salts of BF4−, one can usually assume that the cation is the reactive agent and this tetrahedral anion is inert.
|
|
| Ammonium Tetrafluoroborate CAS No 13826-83-0
Application / Uses Preparation
The utility of BF4− arises because its salts are often more soluble in organic solvents than the related nitrate or halide salts. Furthermore, BF4− is less nucleophilic and basic than nitrates and halides. Thus, when using salts of BF4−, one can usually assume that the cation is the reactive agent and this tetrahedral anion is inert.
|
|
| Ferrous Tetrafluoroborate CAS No 15283-51-9
Application / Uses Preparation
The utility of BF4− arises because its salts are often more soluble in organic solvents than the related nitrate or halide salts. Furthermore, BF4− is less nucleophilic and basic than nitrates and halides. Thus, when using salts of BF4−, one can usually assume that the cation is the reactive agent and this tetrahedral anion is inert.
|
|
| Iron Tetrafluoroborate CAS No 15283-51-9
Application / Uses Preparation
The utility of BF4− arises because its salts are often more soluble in organic solvents than the related nitrate or halide salts. Furthermore, BF4− is less nucleophilic and basic than nitrates and halides. Thus, when using salts of BF4−, one can usually assume that the cation is the reactive agent and this tetrahedral anion is inert.
|
|
| Lithium Tetrafluoroborate CAS No 14283-07-9
Application / Uses Preparation
The utility of BF4− arises because its salts are often more soluble in organic solvents than the related nitrate or halide salts. Furthermore, BF4− is less nucleophilic and basic than nitrates and halides. Thus, when using salts of BF4−, one can usually assume that the cation is the reactive agent and this tetrahedral anion is inert.
|
|
| Potassium Tetrafluoroborate CAS No 14075-53-7
Application / Uses Preparation
The utility of BF4− arises because its salts are often more soluble in organic solvents than the related nitrate or halide salts. Furthermore, BF4− is less nucleophilic and basic than nitrates and halides. Thus, when using salts of BF4−, one can usually assume that the cation is the reactive agent and this tetrahedral anion is inert.
|
|
| Sodium Tetrafluoroborate CAS No 13755-29-8
Application / Uses Preparation
The utility of BF4− arises because its salts are often more soluble in organic solvents than the related nitrate or halide salts. Furthermore, BF4− is less nucleophilic and basic than nitrates and halides. Thus, when using salts of BF4−, one can usually assume that the cation is the reactive agent and this tetrahedral anion is inert.
|
|
| Zinc Tetrafluoroborate CAS No 13826-88-5
Application / Uses Preparation
The utility of BF4− arises because its salts are often more soluble in organic solvents than the related nitrate or halide salts. Furthermore, BF4− is less nucleophilic and basic than nitrates and halides. Thus, when using salts of BF4−, one can usually assume that the cation is the reactive agent and this tetrahedral anion is inert.
|
|
© Triveni Interchem Pvt. Ltd. (Group Of Triveni Chemicals). All Rights Reserved (Terms of Use)