Jesse La Jeunesse scite author profile

Jesse La Jeunesse

3Publications

34Citation Statements Received

98Citation Statements Given

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131

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University of Hawaii System

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Experimental identification of aminomethanol (NH2CH2OH)—the key intermediate in the Strecker Synthesis

et al. 2022

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The Strecker Synthesis of (a)chiral α-amino acids from simple organic compounds, such as ammonia (NH3), aldehydes (RCHO), and hydrogen cyanide (HCN) has been recognized as a viable route to amino acids on primordial earth. However, preparation and isolation of the simplest hemiaminal intermediate – the aminomethanol (NH2CH2OH)– formed in the Strecker Synthesis to even the simplest amino acid glycine (H2NCH2COOH) has been elusive. Here, we report the identification of aminomethanol prepared in low-temperature methylamine (CH3NH2) – oxygen (O2) ices upon exposure to energetic electrons. Isomer-selective photoionization time-of-flight mass spectrometry (PI-ReTOF-MS) facilitated the gas phase detection of aminomethanol during the temperature program desorption (TPD) phase of the reaction products. The preparation and observation of the key transient aminomethanol changes our perception of the synthetic pathways to amino acids and the unexpected kinetic stability in extreme environments.

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The Elusive Ketene (H₂CCO) Channel in the Infrared Multiphoton Dissociation of Solid 1,3,5‐Trinitro‐1,3,5‐Triazinane (RDX)

et al. 2020

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Understanding of the fundamental mechanisms involved in the decomposition of 1,3,5‐trinitro‐1,3,5‐triazinane (RDX) still represents a major challenge for the energetic materials and physical (organic) chemistry communities mainly because multiple competing dissociation channels are likely involved and previous detection methods of the products are not isomer selective. In this study we exploited a microsecond pulsed infrared laser to decompose thin RDX films at 5 K under mild conditions to limit the fragmentation channels. The subliming decomposition products during the temperature programed desorption phase are detected using isomer selective single photoionization time‐of‐flight mass spectrometry (PI‐ReTOF‐MS). This technique enables us to assign a product signal at m/z=42 to ketene (H2CCO), but not to diazomethane (H2CNN; 42 amu) as speculated previously. Electronic structure calculations support our experimental observations and unravel the decomposition mechanisms of RDX leading eventually to the elusive ketene (H2CCO) via an exotic, four‐membered ring intermediate. This study highlights the necessity to exploit isomer‐selective detection schemes to probe the true decomposition products of nitramine‐based energetic materials.

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Gas phase identification of the elusive oxaziridine (cyclo-H₂CONH) – an optically active molecule

et al. 2020

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