Ya-Ru Lv scite author profile

Creating a polar surface and a large surface area in porous materials offers a powerful strategy for various applications, like gas absorption and separation and energy storage and conversion. Highly conductive and environmentally friendly porous carbon exhibited unique advantages in these aspects. Here, we present a facile and yet efficient strategy for a highly polar surface and ultrahigh surface area in porous carbon frameworks by one-step carbonization of the single-precursor metal–organic framework that was built by mixed N- and P-containing ligands (NPMOF) in which N and P heteroatoms that provide a large number of exposed polar groups are in situ incorporated in the surface of the carbon framework. The highly polar surface and the interconnected pore with a considerably specific area maximizes the affinity for polar CO2 and polysulfide molecules, engendering this material excellent CO2 capture with exceptional cycling stability and renewability and the outstanding performance for the lithium–sulfur battery with high specific capacity and excellent stability. This work demonstrates the great advantages in making porous materials from MOFs for multifunctionality.

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Ya-Ru Lv

One-step MOF-derived Co/Co₉S₈ nanoparticles embedded in nitrogen, sulfur and oxygen ternary-doped porous carbon: an efficient electrocatalyst for overall water splitting

Metal–organic framework-derived Co₉S₈ embedded in N, O and S-tridoped carbon nanomaterials as an efficient oxygen bifunctional electrocatalyst

Amino functionalized Zn/Cd-metal–organic frameworks for selective CO₂ adsorption and Knoevenagel condensation reactions

3D-ordered macroporous N-doped carbon encapsulating Fe-N alloy derived from a single-source metal-organic framework for superior oxygen reduction reaction

Creating a Polar Surface in Carbon Frameworks from Single-Source Metal–Organic Frameworks for Advanced CO₂ Uptake and Lithium–Sulfur Batteries

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Ya-Ru Lv

One-step MOF-derived Co/Co9S8 nanoparticles embedded in nitrogen, sulfur and oxygen ternary-doped porous carbon: an efficient electrocatalyst for overall water splitting

Metal–organic framework-derived Co9S8 embedded in N, O and S-tridoped carbon nanomaterials as an efficient oxygen bifunctional electrocatalyst

Amino functionalized Zn/Cd-metal–organic frameworks for selective CO2 adsorption and Knoevenagel condensation reactions

3D-ordered macroporous N-doped carbon encapsulating Fe-N alloy derived from a single-source metal-organic framework for superior oxygen reduction reaction

Creating a Polar Surface in Carbon Frameworks from Single-Source Metal–Organic Frameworks for Advanced CO2 Uptake and Lithium–Sulfur Batteries

Contact Info

Product

Resources

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One-step MOF-derived Co/Co₉S₈ nanoparticles embedded in nitrogen, sulfur and oxygen ternary-doped porous carbon: an efficient electrocatalyst for overall water splitting

Metal–organic framework-derived Co₉S₈ embedded in N, O and S-tridoped carbon nanomaterials as an efficient oxygen bifunctional electrocatalyst

Amino functionalized Zn/Cd-metal–organic frameworks for selective CO₂ adsorption and Knoevenagel condensation reactions

Creating a Polar Surface in Carbon Frameworks from Single-Source Metal–Organic Frameworks for Advanced CO₂ Uptake and Lithium–Sulfur Batteries