Amorphous Silica Powder

(SiO2 content: ≥99.8%) Hydrophilic Fumed Silica Powder Fumed silica is somewhat more expensive (see Table 1) than other silica sources, such as precipitated silica. Not unexpectedly, silica purity also decreases as the cost for a given class of silica raw material decreases. Since very low sodium is thought to be a critical requirement for nano BEA synthesis, we set out to determine if lower cost precipitated silica could be used as raw material rather than more expensive

Amorphous Silica Powder( FS-380) FS-380 is a hydrophilic fumed silica with a specific surface area of 380m2/g, and it is synthetic, hydrophilic, amorphous silica, produced via flame hydrolysis. Characteristic: High specific surface area High purity Aggregated structure Submicron particle size Low bulk density Hydrophilic surface chemistry Physico-chemical Data ( Model: FS-380) Properties Typical Value Standardization BET surface area [m2/g] 380 ± 25 GB/T10722 Loss on drying [

Amorphous Silica Powder( FS-300) FS-300 is a hydrophilic Fumed Silica with a specific surface area of 300m2/g, and it is synthetic, hydrophilic, amorphous silica, produced via flame hydrolysis. Characteristic: High specific surface area High purity Aggregated structure Submicron particle size Low bulk density Hydrophilic surface chemistry Physico-chemical Data ( Model: FS-300) Properties Typical Value Standardization BET surface area [m2/g] 300 ± 25 GB/T10722 Loss on drying [

Amorphous Silica Powder ( FS-150) FS-150 is a hydrophilic fumed silica with a specific surface area of 150m2/g, and it is synthetic, hydrophilic, amorphous silica, produced via flame hydrolysis. Characteristic: Low specific surface area High purity Aggregated structure Submicron particle size Low bulk density Hydrophilic surface chemistry Physico-chemical Data ( Model: FS-150) Properties Typical Value Standardization BET surface area [m2/g] 150 ± 25 GB/T10722 Loss on drying [

Food Grade Synthetic Amorphous Silica (HN-200) Food Grade Synthetic Amorphous Silica HN-200 is a hydrophilic fumed silica with a specific surface area of 200m2/g, and it is synthetic, hydrophilic, amorphous silica, produced via flame hydrolysis. Characteristic: Medium specific surface area High purity Aggregated structure Submicron particle size Low bulk density Hydrophilic surface chemistry Physico-chemical Data ( Model: HN-200) Properties Typical Value Standardization BET

(PH Value: 3.8 – 4.5) Hydrophilic Fumed Silica Powder Fumed silica is somewhat more expensive (see Table 1) than other silica sources, such as precipitated silica. Not unexpectedly, silica purity also decreases as the cost for a given class of silica raw material decreases. Since very low sodium is thought to be a critical requirement for nano BEA synthesis, we set out to determine if lower cost precipitated silica could be used as raw material rather than more expensive

(SiO2 content: ≥99.8%) Hydrophilic Fumed Silica Powder Fumed silica is somewhat more expensive (see Table 1) than other silica sources, such as precipitated silica. Not unexpectedly, silica purity also decreases as the cost for a given class of silica raw material decreases. Since very low sodium is thought to be a critical requirement for nano BEA synthesis, we set out to determine if lower cost precipitated silica could be used as raw material rather than more expensive

(SiO2 content: ≥99.8%) Hydrophilic Fumed Silica Powder Fumed silica is somewhat more expensive (see Table 1) than other silica sources, such as precipitated silica. Not unexpectedly, silica purity also decreases as the cost for a given class of silica raw material decreases. Since very low sodium is thought to be a critical requirement for nano BEA synthesis, we set out to determine if lower cost precipitated silica could be used as raw material rather than more expensive

(PH Value: 3.8 – 4.5) Hydrophilic Fumed Silica Powder Fumed silica is somewhat more expensive (see Table 1) than other silica sources, such as precipitated silica. Not unexpectedly, silica purity also decreases as the cost for a given class of silica raw material decreases. Since very low sodium is thought to be a critical requirement for nano BEA synthesis, we set out to determine if lower cost precipitated silica could be used as raw material rather than more expensive