Mostrando resultados 1 a 3 de 3
Derechos | Vista previa | Fecha de publicación | Título | Autor(es) |
| ![A Lizardite HCN interaction leading the increasing of molecular complexity in an alkaline hydrothermal scenario, implications for origin of life studies.pdf.jpg](/jspui/retrieve/0cf2f0b4-c120-438b-8791-af7b237061a5/A%20Lizardite%20HCN%20interaction%20leading%20the%20increasing%20of%20molecular%20complexity%20in%20an%20alkaline%20hydrothermal%20scenario%2c%20implications%20for%20origin%20of%20life%20studies.pdf.jpg) | 6-jul-2021 | A Lizardite–HCN Interaction Leading the Increasing of Molecular Complexity in an Alkaline Hydrothermal Scenario: Implications for Origin of Life Studies | Villafañe Barajas, S. A.; Ruiz Bermejo, Marta; Rayo Pizarroso, P.; Gálvez Martínez, S.; Mateo Martí, Eva; Colín García, M. |
| ![acceso-restringido.pdf.jpg](/jspui/retrieve/bc42f66b-74fd-4d0c-9d91-a541366c2c11/acceso-restringido.pdf.jpg) | 15-nov-2020 | Ar+ ion bombardment dictates glycine adsorption on pyrite (1 0 0) surface: X-ray photoemission spectroscopy and DFT approach | Gálvez Martínez, S.; Escamilla Roa, E.; Zorzano, María Paz; Mateo Martí, Eva |
| ![Defects on a pyrite(100) surface produce chemical evolution of flycine under inert conditions- experimental and theoretical approaches.pdf.jpg](/jspui/retrieve/16f37c5f-e241-454b-9ed7-b12ab3019119/Defects%20on%20a%20pyrite%28100%29%20surface%20produce%20chemical%20evolution%20of%20flycine%20under%20inert%20conditions-%20experimental%20and%20theoretical%20approaches.pdf.jpg) | 10-oct-2019 | Defects on a pyrite(100) surface produce chemical evolution of glycine under inert conditions: experimental and theoretical approaches | Gálvez Martínez, S.; Escamilla Roa, E.; Zorzano, María Paz; Mateo Martí, Eva |