Ambient temperature CO2 fixation to pyruvate and subsequently to citramalate over iron and nickel nanoparticles

Beyazay, Tuğçe; Belthle, Kendra Solveig; Farès, Christophe; Preiner, Martina; Moran, Joseph; Martin, William; Tüysüz, Harun

doi:10.1038/s41467-023-36088-w

Cited by 34 publications

(61 citation statements)

References 95 publications

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“…Particularly interesting would be the integration of carbonate as occurring in modern Lost City-type vents (24,25) and sulfide. Both of them were also likely abundant on an early Earth (1-3) and are even providing promising catalytic capabilities known from highly reactive metal sulfides like Fe(Ni)S minerals (23,(52)(53)(54). So far, sulfides were not included in the system due to safety reason and the potential formation of H 2 S gas.…”

Section: Discussionmentioning

confidence: 99%

“…Also, because of that, electrochemical gradients in AVs may pose an important role by combining strongly opposing conditions (high-low pH or reduced-oxidized) for different or subsequent chemical reactions (13) in close spatial proximity and driving diffusiophoretic accumulation of dilute molecules (9) at catalytically active mineral surfaces (3,9,14). The catalytic potential of different iron sulfide minerals has been shown in recent experimental publications for the reduction of CO 2 (53,54,58) and also the effect of oxyhydroxide minerals on product selectivity in amino acid synthesis (13).…”

Section: Discussionmentioning

confidence: 99%

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Alkaline vents recreated in two dimensions to study pH gradients, precipitation morphology, and molecule accumulation

Weingart,

Chen,

Donat

et al. 2023

Sci. Adv.

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Alkaline vents (AVs) are hypothesized to have been a setting for the emergence of life, by creating strong gradients across inorganic membranes within chimney structures. In the past, three-dimensional chimney structures were formed under laboratory conditions; however, no in situ visualization or testing of the gradients was possible. We develop a quasi–two-dimensional microfluidic model of AVs that allows spatiotemporal visualization of mineral precipitation in low-volume experiments. Upon injection of an alkaline fluid into an acidic, iron-rich solution, we observe a diverse set of precipitation morphologies, mainly controlled by flow rate and ion concentration. Using microscope imaging and pH-dependent dyes, we show that finger-like precipitates can facilitate formation and maintenance of microscale pH gradients and accumulation of dispersed particles in confined geometries. Our findings establish a model to investigate the potential of gradients across a semipermeable boundary for early compartmentalization, accumulation, and chemical reactions at the origins of life.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Alkaline vents recreated in two dimensions to study pH gradients, precipitation morphology, and molecule accumulation

Weingart,

Chen,

Donat

et al. 2023

Sci. Adv.

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“…Before each 1 H NMR measurement, liquid samples were treated with 0.01 M of K 3 PO 4 solution and centrifuged at 13 500 rpm for 15 min to minimize the paramagnetic effect coming from possibly leached metal species as it is described in our previous study. 67 NMR spectra were obtained on either a Bruker Avance Neo spectrometer operating at a field of 14.1 T ( 1 H Larmor frequency of 600 MHz) with a cryogenically cooled TCI probe for the highest sensitivity on the direct observation of 1 H. All spectra were collected at 25 °C in standard 5 mm tubes containing sample volumes of about 700 μL with the addition of 10% D 2 O (70 μL) as it was described previously. 38,67 In 1 H spectra, water suppression at 4.68 ppm was achieved using "excitation sculpting" together with "perfect echo" Journal of the American Chemical Society pubs.acs.org/JACS Article…”

Section: ■ Experimental Methodsmentioning

confidence: 99%

Direct Synthesis of Formamide from CO₂ and H₂O with Nickel–Iron Nitride Heterostructures under Mild Hydrothermal Conditions

Beyazay,

Martin,

Tüysüz

2023

J. Am. Chem. Soc.

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Formamide can serve as a key building block for the synthesis of organic molecules relevant to premetabolic processes. Natural pathways for its synthesis from CO 2 under early earth conditions are lacking. Here, we report the thermocatalytic conversion of CO 2 and H 2 O to formate and formamide over Ni–Fe nitride heterostructures in the absence of synthetic H 2 and N 2 under mild hydrothermal conditions. While water molecules act as both a solvent and hydrogen source, metal nitrides serve as nitrogen sources to produce formamide in the temperature range of 25–100 °C under 5–50 bar. Longer reaction times promote the C–C bond coupling and formation of acetate and acetamide as additional products. Besides liquid products, methane and ethane are also produced as gas-phase products. Postreaction characterization of Ni–Fe nitride particles reveals structural alteration and provides insights into the potential reaction mechanism. The findings indicate that gaseous CO 2 can serve as a carbon source for the formation of C–N bonds in formamide and acetamide over the Ni–Fe nitride heterostructure under simulated hydrothermal vent conditions.

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“…Under pressurized batch conditions, supported silica Co afforded the transformation of CO 2 to methane, acetate and methanol, [14] Fe−Ni nanoparticles facilitated the transformation of CO 2 to formate, acetate and pyruvate, [15,16] and iron nanoparticles mediated the reduction of CO 2 with H 2 to formic acid and acetic acid [17] . Fe powder in water [18] (without another reductant) likewise facilitates this transformation, as does a variety of iron‐based minerals [19] to generate several additional reduction products (including acetate, pyruvate, and citramalate). A variety of other metal sulfides (Fe 3 S 4 , Ni 3 S 2 , FeS 2 , CuS, MoS, and CoS) can also reduce CO 2 with H 2 S as the reductant [20,21] .…”

Section: Co2 Reduction (Formate Acetate Methanol Pyruvate)mentioning

confidence: 99%

Quantifying Catalysis at the Origin of Life**

Graaf

Decker

Sojo

et al. 2023

Chemistry A European J

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The construction of hypothetical environments to produce organic molecules such as metabolic intermediates or amino acids is the subject of ongoing research into the emergence of life. Experiments specifically focused on an anabolic approach typically rely on a mineral catalyst to facilitate the supply of organics that may have produced prebiotic building blocks for life. Alternatively to a true catalytic system, a mineral could be sacrificially oxidized in the production of organics, necessitating the emergent ‘life’ to turn to virgin materials for each iteration of metabolic processes. The aim of this perspective is to view the current ‘metabolism‐first’ literature through the lens of materials chemistry to evaluate the need for higher catalytic activity and materials analyses. While many elegant studies have detailed the production of chemical building blocks under geologically plausible and biologically relevant conditions, few appear to do so with sub‐stoichiometric amounts of metals or minerals. Moving toward sub‐stoichiometric metals with rigorous materials analyses is necessary to demonstrate the viability of an elusive cornerstone of the ‘metabolism‐first’ hypotheses: catalysis. We emphasize that future work should aim to demonstrate decreased catalyst loading, increased productivity, and/or rigorous materials analyses for evidence of true catalysis.

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Ambient temperature CO2 fixation to pyruvate and subsequently to citramalate over iron and nickel nanoparticles

Cited by 34 publications

References 95 publications

Alkaline vents recreated in two dimensions to study pH gradients, precipitation morphology, and molecule accumulation

Alkaline vents recreated in two dimensions to study pH gradients, precipitation morphology, and molecule accumulation

Direct Synthesis of Formamide from CO₂ and H₂O with Nickel–Iron Nitride Heterostructures under Mild Hydrothermal Conditions

Quantifying Catalysis at the Origin of Life**

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Ambient temperature CO2 fixation to pyruvate and subsequently to citramalate over iron and nickel nanoparticles

Cited by 34 publications

References 95 publications

Alkaline vents recreated in two dimensions to study pH gradients, precipitation morphology, and molecule accumulation

Alkaline vents recreated in two dimensions to study pH gradients, precipitation morphology, and molecule accumulation

Direct Synthesis of Formamide from CO2 and H2O with Nickel–Iron Nitride Heterostructures under Mild Hydrothermal Conditions

Quantifying Catalysis at the Origin of Life**

Contact Info

Product

Resources

About

Direct Synthesis of Formamide from CO₂ and H₂O with Nickel–Iron Nitride Heterostructures under Mild Hydrothermal Conditions