One-dimensional titanate nanotube materials: Heterogeneous solid catalysts for sustainable synthesis of biofuel precursors/value-added chemicals

Adeleye, ATJohn, KIAdeleye, PGAkande, Amos ABanjoko, OO2021-09-302021-09-302021-09Adeleye, A., John, K., Adeleye, P., Akande, A.A. & Banjoko, O. 2021. One-dimensional titanate nanotube materials: Heterogeneous solid catalysts for sustainable synthesis of biofuel precursors/value-added chemicals—a review. Journal of Materials Science, 228. http://hdl.handle.net/10204/121150022-24611573-4803https://doi.org/10.1007/s10853-021-06473-1http://hdl.handle.net/10204/12115One-dimensional (1D) titanate nanotubes materials (protonated titanate nanotube (HTNT) and sodium titanate nanotube (NaTNT)) have been reported as low-cost and efficient catalytic materials in chemical syntheses for the production of biofuel precursors with interesting catalytic performance exhibited, even better than some commonly used zeolites, H-MOR, H-ß, SO42-/Al2O3, and H-ZSM-5 solid catalysts with environmental benign in focus when compared with homogeneous catalytic materials. This mini-review expressly revealed the significance and potential of using HTNT and NaTNT as sustainable and environmentally benign solid catalysts/supports in various chemical reactions. The critical assessment of biomass valorization and titanate nanostructured materials as catalysts/supports via Green Chemistry approach, #7 (use of renewable feedstocks), #9 (use of catalyst against stoichiometry) and United Nations (UN) Sustainable Development Goals (SDGs), #7 (affordable and clean energy; ensure access to inexpensive, reliable, sustainable, and new energy), is presented as integrated pathways to meet environmental benign technology toward sustainability. Hence, this work follows in the pattern of recent formulated features reported for solid catalysts—‘PYSSVR’ concept, which means P–production cost, Y–yield, S–stability, S–selectivity, V–versatility, and R–reusability.AbstractenProtonated titanate nanotubesHTNTSodium titanate nanotubesNaTNTSodium titanate nanotubesSTNTsValue-added chemicalsVACsValue-added productsVAPsOne-dimensional titanate nanotube materials: Heterogeneous solid catalysts for sustainable synthesis of biofuel precursors/value-added chemicals—a reviewArticleAdeleye, A., John, K., Adeleye, P., Akande, A. A., & Banjoko, O. (2021). One-dimensional titanate nanotube materials: Heterogeneous solid catalysts for sustainable synthesis of biofuel precursors/value-added chemicals—a review. Journal of Materials Science, 228, http://hdl.handle.net/10204/12115Adeleye, AT, KI John, PG Adeleye, Amos A Akande, and OO Banjoko "One-dimensional titanate nanotube materials: Heterogeneous solid catalysts for sustainable synthesis of biofuel precursors/value-added chemicals—a review." Journal of Materials Science, 228 (2021) http://hdl.handle.net/10204/12115Adeleye A, John K, Adeleye P, Akande AA, Banjoko O. One-dimensional titanate nanotube materials: Heterogeneous solid catalysts for sustainable synthesis of biofuel precursors/value-added chemicals—a review. Journal of Materials Science, 228. 2021; http://hdl.handle.net/10204/12115.TY - Article AU - Adeleye, AT AU - John, KI AU - Adeleye, PG AU - Akande, Amos A AU - Banjoko, OO AB - One-dimensional (1D) titanate nanotubes materials (protonated titanate nanotube (HTNT) and sodium titanate nanotube (NaTNT)) have been reported as low-cost and efficient catalytic materials in chemical syntheses for the production of biofuel precursors with interesting catalytic performance exhibited, even better than some commonly used zeolites, H-MOR, H-ß, SO42-/Al2O3, and H-ZSM-5 solid catalysts with environmental benign in focus when compared with homogeneous catalytic materials. This mini-review expressly revealed the significance and potential of using HTNT and NaTNT as sustainable and environmentally benign solid catalysts/supports in various chemical reactions. The critical assessment of biomass valorization and titanate nanostructured materials as catalysts/supports via Green Chemistry approach, #7 (use of renewable feedstocks), #9 (use of catalyst against stoichiometry) and United Nations (UN) Sustainable Development Goals (SDGs), #7 (affordable and clean energy; ensure access to inexpensive, reliable, sustainable, and new energy), is presented as integrated pathways to meet environmental benign technology toward sustainability. Hence, this work follows in the pattern of recent formulated features reported for solid catalysts—‘PYSSVR’ concept, which means P–production cost, Y–yield, S–stability, S–selectivity, V–versatility, and R–reusability. DA - 2021-09 DB - ResearchSpace DP - CSIR J1 - Journal of Materials Science, 228 KW - Protonated titanate nanotubes KW - HTNT KW - Sodium titanate nanotubes KW - NaTNT KW - Sodium titanate nanotubes KW - STNTs KW - Value-added chemicals KW - VACs KW - Value-added products KW - VAPs LK - https://researchspace.csir.co.za PY - 2021 SM - 0022-2461 SM - 1573-4803 T1 - One-dimensional titanate nanotube materials: Heterogeneous solid catalysts for sustainable synthesis of biofuel precursors/value-added chemicals—a review TI - One-dimensional titanate nanotube materials: Heterogeneous solid catalysts for sustainable synthesis of biofuel precursors/value-added chemicals—a review UR - http://hdl.handle.net/10204/12115 ER -24999