THEMIZOROKI HECK REACTION IN AQUEOUS SOLVENTS PROMOTED BY RESIN-SUPPORTED OF NOVEL RPF@PDNPS NANOSPHERES: CATALYTIC REDUCTION TEST
The aim of the research was to synthesize formaldehyde phenolic resin (RPF) nanospheres using the aldol condensation method. The Novel of RPF@PdNPs Nanospheres that were prepared at that time was used as a reducing agent and stabilizing supported for the synthesis of PdNPs nanoparticles. It turns ou...
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| Veröffentlicht in: | International journal of advanced research (Indore) 2023-02, Vol.11 (2), p.1145-1151 |
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| container_title | International journal of advanced research (Indore) |
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| creator | Busron, Busroni a, Suyanta Anwar, Chairil |
| description | The aim of the research was to synthesize formaldehyde phenolic resin (RPF) nanospheres using the aldol condensation method. The Novel of RPF@PdNPs Nanospheres that were prepared at that time was used as a reducing agent and stabilizing supported for the synthesis of PdNPs nanoparticles. It turns out phenol replacement led to a significant decrease in nanosphere size and an increase in the surface roughness of the nanospheres, which ultimately increases the specific surface area of ​​the RPF nanospheres. Because of enhanced specific surface area and excellent reducing activity of RPF (Formaldehyde Phenol Resin), prepared RPF nanospheres have a very high amount of PdNPs loading. Therefore, the as-prepared of RPF@PdNPs nanospheres exhibit a highly efficient catalytic capability for the reduction of Cr(VI) toxicity. |
| doi_str_mv | 10.21474/IJAR01/16358 |
| format | Article |
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| title | THEMIZOROKI HECK REACTION IN AQUEOUS SOLVENTS PROMOTED BY RESIN-SUPPORTED OF NOVEL RPF@PDNPS NANOSPHERES: CATALYTIC REDUCTION TEST |
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