Hongnan Jia scite author profile

We report the use of metal–organic frameworks (MOFs) for the selective separation of nucleic acids (DNA and RNA) with different secondary structures through size, shape, length, and capability of conformational transition. Three MOFs with precisely controlled pore environments, Co-IRMOF-74-II, -III, and -IV, composed of Co2+ and organic linkers (II, III, and IV), respectively, were used for the inclusion of nucleic acid into their pores from the solution. This was proven to be a spontaneous process from disordered free state to restricted ordered state via circular dichroism (CD) spectroscopy. Three critical factors were identified for their inclusion: (1) size selection induced by steric hindrance, (2) conformation transition energy selection induced by stability, and (3) molecular weight selection. These selection rules were used to extract nucleic acids with flexible and unstable secondary structures from complex mixtures of multiple nucleic acids, leaving those with rigid and stable secondary structures in the mother liquor. This provides the possibility to separate and enrich nucleic acids in bulk through their different structure feature, which is highly desirable in genome-wide structural measurement of nucleic acids. Unlike methods that rely on specific binding antibodies or ligand, this MOF method is capable of selecting all kinds of nucleic acids with similar secondary structure features; therefore, it is suitable for the handling of a large variety and quantity of nucleic acids at the same time. This method also has the potential to gather information about the folding stability of biomolecules with secondary structures.

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A cobalt hydroxide coated metal-organic framework for enhanced water oxidation electrocatalysis

Yao

Fan

Meng

et al. 2021

Chemical Engineering Journal

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Nitridation-induced metal–organic framework nanosheet for enhanced water oxidation electrocatalysis

Yao

Jia

Fan

et al. 2022

Journal of Energy Chemistry

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Sequence control of metals in MOF by coordination number precoding for electrocatalytic oxygen evolution

Jia¹,

Han²,

Luo³

et al. 2022

Chem Catalysis

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Intermolecular Energy Gap‐Induced Formation of High‐Valent Cobalt Species in CoOOH Surface Layer on Cobalt Sulfides for Efficient Water Oxidation

et al. 2022

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Transition metal-based electrocatalysts will undergo surface reconstruction to form active oxyhydroxide-based hybrids, which are regarded as the "truecatalysts" for the oxygen evolution reaction (OER). Much effort has been devoted to understanding the surface reconstruction, but little on identifying the origin of the enhanced performance derived from the substrate effect. Herein, we report the electrochemical synthesis of amorphous CoOOH layers on the surface of various cobalt sulfides (CoS α ), and identify that the reduced intermolecular energy gap (Δ inter ) between the valence band maximum (VBM) of CoOOH and the conduction band minimum (CBM) of CoS α can accelerate the formation of OER-active high-valent Co 4 + species. The combination of electrochemical and in situ spectroscopic approaches, including cyclic voltammetry (CV), operando electron paramagnetic resonance (EPR) and Raman, reveals that Co species in the CoOOH/Co 9 S 8 are more readily oxidized to CoO 2 /Co 9 S 8 than in CoOOH and other CoOOH/CoS α . This work provides a new design principle for transition metal-based OER electrocatalysts.

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Hongnan Jia

Efficient Separation of Nucleic Acids with Different Secondary Structures by Metal–Organic Frameworks

A cobalt hydroxide coated metal-organic framework for enhanced water oxidation electrocatalysis

Nitridation-induced metal–organic framework nanosheet for enhanced water oxidation electrocatalysis

Sequence control of metals in MOF by coordination number precoding for electrocatalytic oxygen evolution

Intermolecular Energy Gap‐Induced Formation of High‐Valent Cobalt Species in CoOOH Surface Layer on Cobalt Sulfides for Efficient Water Oxidation

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