Brandon He scite author profile

We have irradiated aerobic aqueous solutions of plasmid DNA with 137Cs gamma rays in the presence of inorganic radical scavengers including nitrite, iodide, azide, thiocyanate and bromide. These scavengers react with the strongly oxidizing hydroxyl radical (*OH) to produce less powerful oxidants. Of these scavengers, only thiocyanate and bromide result in the formation of oxidizing species [(SCN)2*- and Br2*-, respectively] which are capable of reacting with the bases in DNA. The oxidized bases were detected after incubation of the irradiated plasmid with the two E. coli DNA base excision repair endonucleases, formamidopyrimidine-DNA N-glycosylase and endonuclease III. Depending on the experimental conditions, the intermediate base radicals may ultimately form stable oxidized bases in very high yields (within an order of magnitude of the *OH yield), and possibly also single-strand breaks (SSBs) in much lower yield (between 0.1 and 1% of the total yield of base damage). By competing for (SCN)2*- with an additional species (nitrite), it was possible to estimate the second-order rate constant for the reaction of (SCN)2*- with DNA as 1.6 x 10(4) dm3 mol(-1) s(-1), and also to demonstrate a correlation between the large yield of damaged bases and the much smaller increase in the yield of SSBs over background levels due to *OH. The efficiency of transfer of damage from oxidized base to sugar is estimated as about 0.5% or 5%, depending on whether purine or pyrimidine base radicals are responsible for the base to sugar damage transfer.

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Modulating mesoporous Co3O4 hollow nanospheres with oxygen vacancies for highly efficient peroxymonosulfate activation

Zeng

Wang

et al. 2020

Chemical Engineering Journal

164

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Continuous Flow Synthesis of a Zr Magnetic Framework Composite for Post‐Combustion CO₂ Capture

Muhammad

Batten

et al. 2019

Chemistry A European J

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Metal-organic frameworks (MOFs) have an unprecedented ability to store gas molecules, however energy efficient regenerationr emains challenging. Use of magnetic inductiont oa id this shows promise, but economical synthesis of the requisitec omposites is unresolved. Continuousf low chemistry has been reported as ar apid and reliable method of MOF synthesis, delivering step-changei mprovements in space time yields (STY). Here the scalablep roduction of nanomaterials suitable for regeneration by magnetic induction is demonstrated. The zirconium MOF composite, MgFe 2 O 4 @UiO-66-NH 2 is prepared using continuous flow chemistry resulting in am aterialo fc omparable performance to its batch counterpart. Upscaling using flow chemistry gave STY > 25 times that of batch synthesis. Magnetic inducedr egenerationu sing this mass produced MFC for carbonc apture is then demonstrated.[a] B. He, Dr.M.M.S adiq, Prof.Supporting information and the ORCID identification number(s) for the author(s) of this articlecan be found under: https://doi.

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In Situ Investigation of Multicomponent MOF Crystallization during Rapid Continuous Flow Synthesis

Macreadie

Gardiner

et al. 2021

ACS Appl. Mater. Interfaces

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Access to the potential applications of metal–organic frameworks (MOFs) depends on rapid fabrication. While there have been advances in the large-scale production of single-component MOFs, rapid synthesis of multicomponent MOFs presents greater challenges. Multicomponent systems subjected to rapid synthesis conditions have the opportunity to form separate kinetic phases that are each built up using just one linker. We sought to investigate whether continuous flow chemistry could be adapted to the rapid formation of multicomponent MOFs, exploring the UMCM-1 and MUF-77 series. Surprisingly, phase pure, highly crystalline multicomponent materials emerge under these conditions. To explore this, in situ WAXS was undertaken to gain an understanding of the formation mechanisms at play during flow synthesis. Key differences were found between the ternary UMCM-1 and the quaternary MUF-7, and key details about how the MOFs form were then uncovered. Counterintuitively, despite consisting of just two ligands UMCM-1 proceeds via MOF-5, whereas MUF-7 consists of three ligands but is generated directly from the reaction mixture. By taking advantage of the scalable high-quality materials produced, C6 separations were achieved in breakthrough settings.

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Brandon He

Yield of DNA Strand Breaks after Base Oxidation of Plasmid DNA

Modulating mesoporous Co3O4 hollow nanospheres with oxygen vacancies for highly efficient peroxymonosulfate activation

Continuous Flow Synthesis of a Zr Magnetic Framework Composite for Post‐Combustion CO₂ Capture

In Situ Investigation of Multicomponent MOF Crystallization during Rapid Continuous Flow Synthesis

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Brandon He

Yield of DNA Strand Breaks after Base Oxidation of Plasmid DNA

Modulating mesoporous Co3O4 hollow nanospheres with oxygen vacancies for highly efficient peroxymonosulfate activation

Continuous Flow Synthesis of a Zr Magnetic Framework Composite for Post‐Combustion CO2 Capture

In Situ Investigation of Multicomponent MOF Crystallization during Rapid Continuous Flow Synthesis

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Product

Resources

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Continuous Flow Synthesis of a Zr Magnetic Framework Composite for Post‐Combustion CO₂ Capture