Hydrogen-bond promoted nucleophilic fluorination: concept, mechanism and applications in positron emission tomography

TY - JOUR

T1 - Hydrogen-bond promoted nucleophilic fluorination

T2 - concept, mechanism and applications in positron emission tomography

AU - Lee, Jiwoong

AU - Oliveira, Maria Teresa

AU - Jang, Hyeong Bin

AU - Lee, Sungyul

AU - Chi, Dae Yoon

AU - Kim, Dong Wook

AU - Song, Choong Eui

PY - 2016/9/7

Y1 - 2016/9/7

N2 - Due to the tremendous interest in carbon-fluorine bond-forming reactions, research efforts in this area have been dedicated to the development of facile processes to synthesize small fluorine-containing organic molecules. Among others, PET (Positron Emission Tomography) is one of the most important applications of fluorine chemistry. Recognizing the specific requirements of PET processes, some groups have focused on fluorination reactions using alkali metal fluorides, particularly through SN2-type reactions. However, a common "misconception" about the role of protic solvents and hydrogen bonding interactions in this class of reactions has hampered the employment of these excellent promoters. Herein, we would like to review recent discoveries in this context, showing straightforward nucleophilic fluorination reactions using alkali metal fluorides promoted by protic solvents. Simultaneous dual activation of reacting partners by intermolecular hydrogen bonding and the enhancement of the "effective fluoride nucleophilicity", which is Nature's biocatalytic approach with the fluorinase enzyme, are the key to this unprecedentedly successful nucleophilic fluorination.

AB - Due to the tremendous interest in carbon-fluorine bond-forming reactions, research efforts in this area have been dedicated to the development of facile processes to synthesize small fluorine-containing organic molecules. Among others, PET (Positron Emission Tomography) is one of the most important applications of fluorine chemistry. Recognizing the specific requirements of PET processes, some groups have focused on fluorination reactions using alkali metal fluorides, particularly through SN2-type reactions. However, a common "misconception" about the role of protic solvents and hydrogen bonding interactions in this class of reactions has hampered the employment of these excellent promoters. Herein, we would like to review recent discoveries in this context, showing straightforward nucleophilic fluorination reactions using alkali metal fluorides promoted by protic solvents. Simultaneous dual activation of reacting partners by intermolecular hydrogen bonding and the enhancement of the "effective fluoride nucleophilicity", which is Nature's biocatalytic approach with the fluorinase enzyme, are the key to this unprecedentedly successful nucleophilic fluorination.

U2 - 10.1039/c6cs00286b

DO - 10.1039/c6cs00286b

M3 - Journal article

SN - 0306-0012

VL - 45

SP - 4638

EP - 4650

JO - Chemical Society Reviews

JF - Chemical Society Reviews

IS - 17

ER -