Reliable methods to conjugate molecules using highly reactive substrates including strained
cycloalkynes, azides, and thiophene S, S-dioxides, or short-lived intermediates such as …

Single crystal X-ray structurally characterized benzimidazole-naphthalene hybrid (NABI)
functions as a unique dual analyte sensor that can detect Zn 2+ cation and N 3− anion …

Core–shell-based nanomaterials have garnered considerable attention in the recent past
not only in catalytic applications but also in their potentiality in selective and efficient …

Little is known about the reactivity of strain-promoted alkyne–azide cycloaddition (SPAAC)
reagents with inorganic azides. We explore the reactions of a variety of popular SPAAC …

In this work, for the first time, a solvent-exfoliated hexagonal boron nitride nanosheet (h-
BNNS) has been employed for the electrochemical (EC) sensing of a hazardous primary …

Fluorogenic labeling enables imaging cellular molecules of interest with minimal
background. This process is accompanied with the notable increase of the quantum yield of …

Detection of azide-tagged biomolecules (eg, azido sugars) inside living cells using “click”
chemistry has been revolutionary to the field of chemical biology. However, we currently still …

A palladium‐catalyzed cross‐coupling reaction with aryl halide functionalities has recently
emerged as a valuable tool for protein modification. Herein, a new fluorogenic modification …

Sodium azide (NaN 3) is highly toxic and widely used in, for example, automobile airbags
and biochemical laboratories. The electrochemical detection of sodium azide on commonly …

Real-time azide or azido-functionalized molecular detection inside living cells using
bioorthogonal chemistry-based approaches has been revolutionary to advancing chemical …