Fabricating Covalent–Organic Quantum Dots through Selective Disassembly of Hydrogen-Covalent Hybridized Organic Frameworks for Efficient and Sensitive Uranium Detection

Abstract: The preparation of low-dimensional covalent–organic frameworks (COFs) is currently a hot and challenging research topic, especially for zero-dimensional (0D) COF quantum dots (COQDs). Herein, for the first time we introduce a facile and efficient approach to fabricating COQDs by selectively disassembling hydrogen-covalent hybridized organic frameworks (H–COFs). By taking advantage of the disparate stabilities between noncovalent and covalent bonds within the periodic lamellar structures of H–COFs, we disrupt t… Show more

“…[21] Jia et al reported the preparation of fluorescent zero-dimensional COF quantum dots (QDs) and the application in low-concentration UO 2 2 + detection. [22] Wang and his team reported the preparation of red fluorescent nickel-doped self-assembled Cu nanoclusters and their application in detecting biological thiols. [23] Wang et al successfully synthesized SQDs in multiple colors and utilized them for applications in cell imaging, LED sensing, and other relevant fields.…”

A Highly Sensitive and Selective Fluorescent Sensor for Folic Acid Detection Based on D‐penicillamine Stabilized Ag/Cu Alloy Nanoclusters

“…[21] Jia et al reported the preparation of fluorescent zero-dimensional COF quantum dots (QDs) and the application in low-concentration UO 2 2 + detection. [22] Wang and his team reported the preparation of red fluorescent nickel-doped self-assembled Cu nanoclusters and their application in detecting biological thiols. [23] Wang et al successfully synthesized SQDs in multiple colors and utilized them for applications in cell imaging, LED sensing, and other relevant fields.…”

A Highly Sensitive and Selective Fluorescent Sensor for Folic Acid Detection Based on D‐penicillamine Stabilized Ag/Cu Alloy Nanoclusters