Yu Zhao scite author profile

The unique structural characteristics of threedimensional (3D) covalent organic frameworks (COFs) like high surface areas, interconnected pore system and readily accessible active sites render them promising platforms for a wide set of functional applications. Albeit promising, the reticular construction of 3D COFs with large pores is a very demanding task owing to the formation of interpenetrated frameworks. Herein we report the designed synthesis of a 3D non-interpenetrated stp net COF, namely TUS-64, with the largest pore size of all 3D COFs (47 Å) and record-low density (0.106 g cm À 3 ) by reticulating a 6-connected triptycenebased linker with a 4-connected porphyrin-based linker. Characterized with a highly interconnected mesoporous scaffold and good stability, TUS-64 shows efficient drug loading and controlled release for five different drugs in simulated body fluid environment, demonstrating the competency of TUS-64 as drug nanocarriers.

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Three-Dimensional Covalent Organic Framework with scu-c Topology for Drug Delivery

Das

Sekine

Mabuchi

et al. 2022

ACS Appl. Mater. Interfaces

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Three-dimensional (3D) covalent organic frameworks (COFs) exemplify a new generation of crystalline extended solids with intriguing structures and unprecedented porosity. Notwithstanding substantial scope, the reticular synthesis of 3D COFs from pre-designed building units leading to new network topologies yet remains a demanding task owing to the shortage of 3D building units and inadequate reversibility of the linkages between the building units. In this work, by linking a tetragonal prism (8-connected) node with a square planar (4-connected) node, we report the first 3D COF with scu-c topology. The new COF, namely, TUS-84, features a two-fold interpenetrated structure with well-defined porosity and a Brunauer–Emmett–Teller surface area of 679 m2 g–1. In drug delivery applications, TUS-84 shows efficient drug loading and sustained release profile.

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Ultralarge-Pore, Record-Low Density Three-Dimensional Covalent Organic Framework for Controlled Drug Delivery

Zhao

Das

Sekine

et al. 2022

Preprint

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The unique structural characteristics of three-dimensional (3D) covalent organic frameworks (COFs) like high surface areas, interconnected pore system and readily accessible active sites render them promising platforms for a wide set of functional applications. Albeit promising, the reticular construction of 3D COFs with large pores is a very demanding task owing to the formation of interpenetrated frameworks. Herein we report the designed synthesis of a 3D non-interpenetrated stp net COF, namely TUS-64, with the largest pore size of all 3D COFs (47 Å) and record-low density (0.106 g cm-3) by reticulating a 6-connected triptycene-based linker with a 4-connected porphyrin-based linker. Characterized with a highly interconnected mesoporous scaffold and good stability, TUS-64 shows efficient drug loading and controlled release for five different drugs in simulated body fluid environment, demonstrating the competency of TUS-64 as drug nanocarriers

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Flexible three-dimensional diacetylene functionalized covalent organic frameworks for efficient iodine capture

2023

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Record Ultralarge‐Pores, Low Density Three‐Dimensional Covalent Organic Framework for Controlled Drug Delivery**

et al. 2023

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The unique structural characteristics of three‐dimensional (3D) covalent organic frameworks (COFs) like high surface areas, interconnected pore system and readily accessible active sites render them promising platforms for a wide set of functional applications. Albeit promising, the reticular construction of 3D COFs with large pores is a very demanding task owing to the formation of interpenetrated frameworks. Herein we report the designed synthesis of a 3D non‐interpenetrated stp net COF, namely TUS‐64, with the largest pore size of all 3D COFs (47 Å) and record‐low density (0.106 g cm−3) by reticulating a 6‐connected triptycene‐based linker with a 4‐connected porphyrin‐based linker. Characterized with a highly interconnected mesoporous scaffold and good stability, TUS‐64 shows efficient drug loading and controlled release for five different drugs in simulated body fluid environment, demonstrating the competency of TUS‐64 as drug nanocarriers.

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Yu Zhao

Record Ultralarge‐Pores, Low Density Three‐Dimensional Covalent Organic Framework for Controlled Drug Delivery**

Three-Dimensional Covalent Organic Framework with scu-c Topology for Drug Delivery

Ultralarge-Pore, Record-Low Density Three-Dimensional Covalent Organic Framework for Controlled Drug Delivery

Flexible three-dimensional diacetylene functionalized covalent organic frameworks for efficient iodine capture

Record Ultralarge‐Pores, Low Density Three‐Dimensional Covalent Organic Framework for Controlled Drug Delivery**

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