Bio-metal-organic frameworks for molecular recognition and sorbent extraction of hydrophilic vitamins followed by their determination using HPLC-UV
A bio-metal-organic framework (bio-MOF) derived from the amino acid L-serine has been
prepared in bulk form and evaluated as sorbent for the molecular recognition and extraction
of B-vitamins. The functional pores of bio-MOF exhibit high amounts of hydroxyl groups
jointly directing other supramolecular host-guest interactions thus providing the recognition
of B-vitamins in fruit juices and energy drinks. Single-crystal X-ray diffraction studies reveal
the specific B-vitamin binding sites and the existence of multiple hydrogen bonds between …
prepared in bulk form and evaluated as sorbent for the molecular recognition and extraction
of B-vitamins. The functional pores of bio-MOF exhibit high amounts of hydroxyl groups
jointly directing other supramolecular host-guest interactions thus providing the recognition
of B-vitamins in fruit juices and energy drinks. Single-crystal X-ray diffraction studies reveal
the specific B-vitamin binding sites and the existence of multiple hydrogen bonds between …
Bio-metal-organic frameworks for molecular recognition and sorbent extraction of hydrophilic vitamins followed by their determination using HPLC-UV
H Martínez Pérez-Cejuela, M Mon Conejero… - 2020 - roderic.uv.es
A bio-metal-organic framework (bio-MOF) derived from the amino acid L-serine has been
prepared in bulk form and evaluated as sorbent for the molecular recognition and extraction
of B-vitamins. The functional pores of bio-MOF exhibit high amounts of hydroxyl groups
jointly directing other supramolecular host-guest interactions thus providing the recognition
of B-vitamins in fruit juices and energy drinks. Single-crystal X-ray diffraction studies reveal
the specific B-vitamin binding sites and the existence of multiple hydrogen bonds between …
prepared in bulk form and evaluated as sorbent for the molecular recognition and extraction
of B-vitamins. The functional pores of bio-MOF exhibit high amounts of hydroxyl groups
jointly directing other supramolecular host-guest interactions thus providing the recognition
of B-vitamins in fruit juices and energy drinks. Single-crystal X-ray diffraction studies reveal
the specific B-vitamin binding sites and the existence of multiple hydrogen bonds between …
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