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Main Authors: Cuomo, Jerome J., Goodall, Ian, Guarnieri, C. Richard, Gennaro, Cuomo, Hudak, Stephen
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2505.23850
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author Cuomo, Jerome J.
Goodall, Ian
Guarnieri, C. Richard
Gennaro
Cuomo
Hudak, Stephen
author_facet Cuomo, Jerome J.
Goodall, Ian
Guarnieri, C. Richard
Gennaro
Cuomo
Hudak, Stephen
contents This study introduces a catalyst-free, ambient-temperature method for synthesizing nitrogen-based compounds critical to fertilizer production, including ammonia, urea, ammonium salts, and amino acids. The process relies on bubble-burst-induced microenvironments, where gas bubbles undergo rapid growth and collapse, releasing intense localized energy sufficient to dissociate nitrogen and water molecules. These high-energy zones produce reactive species, including atomic hydrogen (H*) that facilitate nitrogen fixation and drive subsequent chemical transformations without needing catalysts or elevated conditions. Experimental validation using colorimetric assays, Raman spectroscopy, and microscopy confirms the in situ formation of ammonia and its downstream conversion into structurally relevant compounds, including peptide-like assemblies. The system supports reaction tuning through dissolved carbon dioxide (CO2) or organic acids and can be enhanced by low-energy inputs such as UV or ultrasound. Its simplicity, modularity, and ability to operate without external infrastructure offer a practical and scalable platform for decentralized fertilizer generation and sustainable biochemical production.
format Preprint
id arxiv_https___arxiv_org_abs_2505_23850
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Bubble-Burst Synthesis of Ammonia, Amino Acids, and Urea Under Ambient, Catalyst-Free Conditions
Cuomo, Jerome J.
Goodall, Ian
Guarnieri, C. Richard
Gennaro
Cuomo
Hudak, Stephen
Chemical Physics
Materials Science
This study introduces a catalyst-free, ambient-temperature method for synthesizing nitrogen-based compounds critical to fertilizer production, including ammonia, urea, ammonium salts, and amino acids. The process relies on bubble-burst-induced microenvironments, where gas bubbles undergo rapid growth and collapse, releasing intense localized energy sufficient to dissociate nitrogen and water molecules. These high-energy zones produce reactive species, including atomic hydrogen (H*) that facilitate nitrogen fixation and drive subsequent chemical transformations without needing catalysts or elevated conditions. Experimental validation using colorimetric assays, Raman spectroscopy, and microscopy confirms the in situ formation of ammonia and its downstream conversion into structurally relevant compounds, including peptide-like assemblies. The system supports reaction tuning through dissolved carbon dioxide (CO2) or organic acids and can be enhanced by low-energy inputs such as UV or ultrasound. Its simplicity, modularity, and ability to operate without external infrastructure offer a practical and scalable platform for decentralized fertilizer generation and sustainable biochemical production.
title Bubble-Burst Synthesis of Ammonia, Amino Acids, and Urea Under Ambient, Catalyst-Free Conditions
topic Chemical Physics
Materials Science
url https://arxiv.org/abs/2505.23850