Copper Supported on the SiO<sub>2</sub> Nanoparticle in Click Chemistry: An Alternative Catalytic System for Regioselective and One‐Pot Synthesis of 1,2,3‐Triazoles and β‐Hydroxytriazoles

Hashjin, Maryam Ciyabi; Ciyabi, Roghayeh; Baharloui, Maryam; Hosseini, Ghaffar; Tavakoli, Hamed

doi:10.1002/cjoc.201100231

Cited by 16 publications

References 39 publications

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Click Reactions: Azide‐Alkyne Cycloaddition

Jung¹,

Bräse²

2013

Kirk-Othmer Encyclopedia of Chemical Technology

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The term “Click‐chemistry” is a general concept that describes reactions of enormous interest because of their unique characteristics for the synthetic chemistry. Many typical Click‐reactions –among them the Diels Alder reaction and 1,3‐dipolar cycloaddition reactions– have been known for a long time. The most famous amongst them is the copper‐catalyzed azide‐alkyne cycloaddition (CuAAC) which opens up outstanding opportunities in various fields of science and technology. Since the development of the CuAAC by Meldal and Sharpless it gained enormous attention not only in the field of chemistry, but also in biology and materials sciences. In parallel to the development of new applications of the CuAAC, the need for further adaption of the original Click‐procedure e.g. for bioorthogonal approaches got obvious. Nowadays, the broader scope of the CuAAC‐reaction is often paid for with the abandoning of at least one of the mandatory Click requirements and the modified procedures do not stand the general criteria any more. This review will give an overview of the current progress of the famous CuAAC‐(Click)‐reaction, including postulated mechanisms and importance of additives. It will sum up the challenges that have been mastered under critical consideration of the fulfillment of the original Click‐criteria.

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Click Reactions: Azide‐Alkyne Cycloaddition

Jung¹,

Bräse²

2013

Kirk-Othmer Encyclopedia of Chemical Technology

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Green Chemical Synthesis and Click Reactions

Arévalo

López

Gil

2016

Click Reactions in Organic Synthesis

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Pyrene Excimer‐based Bis‐triazolyl Pyranoglycoligands as Specific Mercury Sensors

Xie

Chen

et al. 2012

Chin. J. Chem.

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New C3,4‐disubstituted bis‐triazolyl glycoligands that feature a glucosyl or galactosyl scaffold incorporating two pyrenyl groups were synthesized via the CuI‐catalyzed azide‐alkyne 1,3‐dipolar cycloaddition reaction (Cue‐AAC). These compounds exert a major emission band corresponding to that of pyrene excimer and respond specifically to mercury with a markedly quenched fluorescence. The epimeric nature of the pyranoglycosyl scaffold is determined influential toward the selectivity of the sensors.

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Copper Supported on the SiO₂ Nanoparticle in Click Chemistry: An Alternative Catalytic System for Regioselective and One‐Pot Synthesis of 1,2,3‐Triazoles and β‐Hydroxytriazoles

Cited by 16 publications

References 39 publications

Click Reactions: Azide‐Alkyne Cycloaddition

Click Reactions: Azide‐Alkyne Cycloaddition

Green Chemical Synthesis and Click Reactions

Pyrene Excimer‐based Bis‐triazolyl Pyranoglycoligands as Specific Mercury Sensors

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Copper Supported on the SiO2 Nanoparticle in Click Chemistry: An Alternative Catalytic System for Regioselective and One‐Pot Synthesis of 1,2,3‐Triazoles and β‐Hydroxytriazoles

Cited by 16 publications

References 39 publications

Click Reactions: Azide‐Alkyne Cycloaddition

Click Reactions: Azide‐Alkyne Cycloaddition

Green Chemical Synthesis and Click Reactions

Pyrene Excimer‐based Bis‐triazolyl Pyranoglycoligands as Specific Mercury Sensors

Contact Info

Product

Resources

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Copper Supported on the SiO₂ Nanoparticle in Click Chemistry: An Alternative Catalytic System for Regioselective and One‐Pot Synthesis of 1,2,3‐Triazoles and β‐Hydroxytriazoles