| Results Detail | PFBS | Hydrothermal Treatment | Lab | Other | 350 °C | 6 hour | 62.3% | 3.67 umol | | | Data from Table 2; Aqueous solution (10 mL) of PFBS and metal powder (9.60 mmol) was introduced into reactor |
| Results Detail | PFBS | Hydrothermal Treatment | Lab | Other | 350 °C | 6 hour | 3.66% | 3.67 umol | | | Data from Table 2; Aqueous solution (10 mL) of PFBS and metal powder (9.60 mmol) was introduced into reactor |
| Results Detail | PFBS | Hydrothermal Treatment | Lab | Other | 350 °C | 6 hour | 0.72% | 3.67 umol | | | Data from Table 2; Aqueous solution (10 mL) of PFBS was introduced into reactor |
| Results Detail | PFBS | Hydrothermal Treatment | Lab | Other | 350 °C | 6 hour | 99.4% | 3.67 umol | | | Data from Table 2; Aqueous solution (10 mL) of PFBS was introduced into reactor |
| Results Detail | PFESA | Hydrothermal Treatment | Lab | Other | 350 °C | 6 hour | 36.1% | 3.99 umol | | | Data from Table 2; Aqueous solution (10 mL) of PFESA and metal powder (9.60 mmol) was introduced into reactor |
| Results Detail | PFESA | Hydrothermal Treatment | Lab | Other | 350 °C | 6 hour | 4.22% | 3.99 umol | | | Data from Table 2; Aqueous solution (10 mL) of PFESA and metal powder (9.60 mmol) was introduced into reactor |
| Results Detail | PFESA | Hydrothermal Treatment | Lab | Other | 350 °C | 6 hour | 0.28% | 3.78 umol | | | Data from Table 2; Aqueous solution (10 mL) of PFESA was introduced into reactor |
| Results Detail | PFESA | Hydrothermal Treatment | Lab | Other | 350 °C | 6 hour | 95.2% | 3.78 umol | | | Data from Table 2; Aqueous solution (10 mL) of PFESA was introduced into reactor |
| Results Detail | PFHxS | Hydrothermal Treatment | Lab | Other | 350 °C | 6 hour | 4.67% | 3.65 umol | | | Data from Table 2; Aqueous solution (10 mL) of PFHxS and metal powder (9.60 mmol) was introduced into reactor |
| Results Detail | PFHxS | Hydrothermal Treatment | Lab | Other | 350 °C | 6 hour | 52.9% | 3.65 umol | | | Data from Table 2; Aqueous solution (10 mL) of PFHxS and metal powder (9.60 mmol) was introduced into reactor |
| Results Detail | PFHxS | Hydrothermal Treatment | Lab | Other | 350 °C | 6 hour | 3.4% | 3.77 umol | | | Data from Table 2; Aqueous solution (10 mL) of PFHxS was introduced into reactor |
| Results Detail | PFHxS | Hydrothermal Treatment | Lab | Other | 350 °C | 6 hour | 96.1% | 3.77 umol | | | Data from Table 2; Aqueous solution (10 mL) of PFHxS was introduced into reactor |
| Results Detail | PFOS | Hydrothermal Treatment | Lab | Other | 350 °C | 6 hour | 46.7% | 55.9 mg/L | | | Data from page 1063 |
| Results Detail | PFOS | Hydrothermal Treatment | Lab | Other | 350 °C | 6 hour | >99% | 118.8 mg/L | | | Data from page 1063 |
| Results Detail | PFOS | Hydrothermal Treatment | Lab | Other | 350 °C | 6 hour | 42% | 118.8 mg/L | | | Data from page 1063 |
| Results Detail | PFOS | Hydrothermal Treatment | Lab | Other | 350 °C | 6 hour | >98% | 55.9 mg/L | | | Data from page 1063 |
| Results Detail | PFOS | Hydrothermal Treatment | Lab | Other | 350 °C | 6 hour | 0.05% | 3.72 umol | 3.48 umol | | Data from Table 1; Aqueous solution (10 mL) of PFOS and metal powder (9.60 mmol) was introduced into reactor under an argon atmosphere |
| Results Detail | PFOS | Hydrothermal Treatment | Lab | Other | 350 °C | 6 hour | 93.6% | 3.72 umol | 3.48 umol | | Data from Table 1; Aqueous solution (10 mL) of PFOS and metal powder (9.60 mmol) was introduced into reactor under an argon atmosphere |
| Results Detail | PFOS | Hydrothermal Treatment | Lab | Other | 350 °C | 6 hour | 84.7% | 3.72 umol | 3.15 umol | | Data from Table 1; Aqueous solution (10 mL) of PFOS and metal powder (9.60 mmol) was introduced into reactor under an argon atmosphere |
| Results Detail | PFOS | Hydrothermal Treatment | Lab | Other | 350 °C | 6 hour | 6.78% | 3.72 umol | 3.15 umol | | Data from Table 1; Aqueous solution (10 mL) of PFOS and metal powder (9.60 mmol) was introduced into reactor under an argon atmosphere |
| Results Detail | PFOS | Hydrothermal Treatment | Lab | Other | 350 °C | 6 hour | 46.2% | 1.86 umol | <0.02 umol | | Data from Table 1; Aqueous solution (10 mL) of PFOS and metal powder (9.60 mmol) was introduced into reactor under an argon atmosphere |
| Results Detail | PFOS | Hydrothermal Treatment | Lab | Other | 350 °C | 6 hour | 50.1% | 0.93 umol | <0.02 umol | | Data from Table 1; Aqueous solution (10 mL) of PFOS and metal powder (9.60 mmol) was introduced into reactor under an argon atmosphere |
| Results Detail | PFOS | Hydrothermal Treatment | Lab | Other | 350 °C | 6 hour | <2.15% | 0.93 umol | <0.02 umol | | Data from Table 1; Aqueous solution (10 mL) of PFOS and metal powder (9.60 mmol) was introduced into reactor under an argon atmosphere |
| Results Detail | PFOS | Hydrothermal Treatment | Lab | Other | 350 °C | 6 hour | <0.54% | 3.72 umol | <0.02 umol | | Data from Table 1; Aqueous solution (10 mL) of PFOS and metal powder (9.60 mmol) was introduced into reactor under an argon atmosphere; The pressure inside the reactor during the reaction was 23.3 MPa |
| Results Detail | PFOS | Hydrothermal Treatment | Lab | Other | 350 °C | 6 hour | 51.4% | 3.72 umol | <0.02 umol | | Data from Table 1; Aqueous solution (10 mL) of PFOS and metal powder (9.60 mmol) was introduced into reactor under an argon atmosphere; The pressure inside the reactor during the reaction was 23.3 MPa |
| Results Detail | PFOS | Hydrothermal Treatment | Lab | Other | 350 °C | 6 hour | <1.08% | 1.86 umol | <0.02 umol | | Data from Table 1; Aqueous solution (10 mL) of PFOS and metal powder (9.60 mmol) was introduced into reactor under an argon atmosphere |
| Results Detail | PFOS | Hydrothermal Treatment | Lab | Other | 350 °C | 6 hour | 90.3% | 3.72 umol | 3.36 umol | | Data from Table 1; Aqueous solution (10 mL) of PFOSwas introduced into reactor |
| Results Detail | PFOS | Hydrothermal Treatment | Lab | Other | 350 °C | 6 hour | 0.16% | 3.72 umol | 3.36 umol | | Data from Table 1; Aqueous solution (10 mL) of PFOS was introduced into reactor |
| Results Detail | PFOS | Hydrothermal Treatment | Lab | Other | 350 °C | 6 hour | 23.1% | 3.72 umol | 0.86 umol | | Aqueous solution (10 mL) of PFOS and metal powder (9.60 mmol) was introduced into reactor under an argon atmosphere; fluorine yield was 11.7 umol |
| Results Detail | PFPrS | Hydrothermal Treatment | Lab | Other | 350 °C | 6 hour | 59.2% | 3.99 umol | | | Data from Table 2; Aqueous solution (10 mL) of chemical and metal powder (9.60 mmol) was introduced into reactor |
| Results Detail | PFPrS | Hydrothermal Treatment | Lab | Other | 350 °C | 6 hour | 3.61% | 3.99 umol | | | Data from Table 2; Aqueous solution (10 mL) of chemical and metal powder (9.60 mmol) was introduced into reactor |
| Results Detail | PFPrS | Hydrothermal Treatment | Lab | Other | 350 °C | 6 hour | 100% | 3.81 umol | | | Data from Table 2; Aqueous solution (10 mL) of chemical was introduced into reactor |
| Results Detail | PFPrS | Hydrothermal Treatment | Lab | Other | 350 °C | 6 hour | <0.001% | 3.81 umol | | | Data from Table 2; Aqueous solution (10 mL) of chemical was introduced into reactor |