CRIS Current Research Information System

Self-organizing precipitation processes, such as chemical gardens forming biomimetic micro- and nanotubular forms, have the potential to show us new fundamental science to explore, quantify, and understand nonequilibrium physicochemical systems, and shed light on the conditions for life's emergence. The physics and chemistry of these phenomena, due to the assembly of material architectures under a flux of ions, and their exploitation in applications, have recently been termed chemobrionics. Advances in understanding in this area require a combination of expertise in physics, chemistry, mathematical modeling, biology, and nanoengineering, as well as in complex systems and nonlinear and materials sciences, giving rise to this new synergistic discipline of chemobrionics.

Chemobrionics: From Self-Assembled Material Architectures to the Origin of Life / Cardoso, Silvana S. S.; Cartwright, Julyan H. E.; Čejková, Jitka; Cronin, Leroy; De Wit, Anne; Giannerini, Simone; Horváth, Dezső; Rodrigues, Alírio; Russell, Michael J.; Sainz-Díaz, C. Ignacio; Tóth, Ágota. - In: ARTIFICIAL LIFE. - ISSN 1064-5462. - STAMPA. - 26:3(2020), pp. 315-326. [10.1162/artl_a_00323]

Chemobrionics: From Self-Assembled Material Architectures to the Origin of Life

Cardoso, Silvana S. S.;Cartwright, Julyan H. E.;Čejková, Jitka;Cronin, Leroy;De Wit, Anne;Giannerini, Simone;Horváth, Dezső;Rodrigues, Alírio;Russell, Michael J.;Sainz-Díaz, C. Ignacio;Tóth, Ágota

2020

Abstract

Self-organizing precipitation processes, such as chemical gardens forming biomimetic micro- and nanotubular forms, have the potential to show us new fundamental science to explore, quantify, and understand nonequilibrium physicochemical systems, and shed light on the conditions for life's emergence. The physics and chemistry of these phenomena, due to the assembly of material architectures under a flux of ions, and their exploitation in applications, have recently been termed chemobrionics. Advances in understanding in this area require a combination of expertise in physics, chemistry, mathematical modeling, biology, and nanoengineering, as well as in complex systems and nonlinear and materials sciences, giving rise to this new synergistic discipline of chemobrionics.

Scheda breve

Scheda completa

Scheda completa (DC)

	Anno
	
			2020
		
	Rivista
	
			ARTIFICIAL LIFE
		
	Codice DOI
	
			https://dx.doi.org/10.1162/artl_a_00323
		
	Citazione
	
			Chemobrionics: From Self-Assembled Material Architectures to the Origin of Life / Cardoso, Silvana S. S.; Cartwright, Julyan H. E.; Čejková, Jitka; Cronin, Leroy; De Wit, Anne; Giannerini, Simone; Horváth, Dezső; Rodrigues, Alírio; Russell, Michael J.; Sainz-Díaz, C. Ignacio; Tóth, Ágota. - In: ARTIFICIAL LIFE. - ISSN 1064-5462. - STAMPA. - 26:3(2020), pp. 315-326. [10.1162/artl_a_00323]
		
	Tutti gli autori
	
			Cardoso, Silvana S. S.; Cartwright, Julyan H. E.; Čejková, Jitka; Cronin, Leroy; De Wit, Anne; Giannerini, Simone; Horváth, Dezső; Rodrigues, Alírio; Russell, Michael J.; Sainz-Díaz, C. Ignacio; Tóth, Ágota
		
	Appare nelle tipologie:
	
			1.01 Articolo in rivista

File in questo prodotto:

File	Dimensione	Formato
artl_a_00323.pdf accesso aperto Tipo: Versione (PDF) editoriale Licenza: Licenza per Accesso Aperto. Creative Commons Attribuzione (CCBY) Dimensione 561.2 kB Formato Adobe PDF Visualizza/Apri	561.2 kB	Adobe PDF	Visualizza/Apri

I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.

Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/811726

Citazioni

7

34

33

social impact