Antonio Bauza
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Tetrel‐bonding interaction: rediscovered supramolecular force?
A Bauzá, TJ Mooibroek, A Frontera
Angewandte Chemie International Edition 52 (47), 12317-12321, 2013
The bright future of unconventional σ/π‐hole interactions
A Bauzá, TJ Mooibroek, A Frontera
ChemPhysChem 16 (12), 2496-2517, 2015
Aerogen bonding interaction: a new supramolecular force?
A Bauzá, A Frontera
Angewandte Chemie International Edition 54 (25), 7340-7343, 2015
On the reliability of pure and hybrid DFT methods for the evaluation of halogen, chalcogen, and pnicogen bonds involving anionic and neutral electron donors
A Bauza, I Alkorta, A Frontera, J Elguero
Journal of chemical theory and computation 9 (11), 5201-5210, 2013
Halogen bonding versus chalcogen and pnicogen bonding: a combined Cambridge structural database and theoretical study
A Bauzá, D Quinonero, PM Deya, A Frontera
CrystEngComm 15 (16), 3137-3144, 2013
A thorough anion–π interaction study in biomolecules: on the importance of cooperativity effects
X Lucas, A Bauzá, A Frontera, D Quinonero
Chemical science 7 (2), 1038-1050, 2016
Tetrel bonding interactions
A Bauzá, TJ Mooibroek, A Frontera
The Chemical Record 16 (1), 473-487, 2016
Tetrel bonding interactions at work: Impact on tin and lead coordination compounds
A Bauzá, SK Seth, A Frontera
Coordination Chemistry Reviews 384, 107-125, 2019
Spodium bonds: Noncovalent interactions involving Group 12 elements
A Bauzá, I Alkorta, J Elguero, TJ Mooibroek, A Frontera
Angewandte Chemie International Edition 59 (40), 17482-17487, 2020
Directionality of π-holes in nitro compounds
A Bauzá, TJ Mooibroek, A Frontera
Chemical communications 51 (8), 1491-1493, 2015
Unprecedented structural variations in trinuclear mixed valence Co (II/III) complexes: Theoretical studies, pnicogen bonding interactions and catecholase-like activities
A Hazari, LK Das, RM Kadam, A Bauzá, A Frontera, A Ghosh
Dalton Transactions 44 (8), 3862-3876, 2015
Experimental and Computational Study of Counterintuitive ClO4···ClO4 Interactions and the Interplay between π+–π and Anion···π+ Interactions
P Manna, SK Seth, M Mitra, SR Choudhury, A Bauzá, A Frontera, ...
Crystal growth & design 14 (11), 5812-5821, 2014
Pnicogen–π complexes: theoretical study and biological implications
A Bauzá, D Quiñonero, PM Deyà, A Frontera
Physical Chemistry Chemical Physics 14 (40), 14061-14066, 2012
Towards design strategies for anion–π interactions in crystal engineering
A Bauzá, TJ Mooibroek, A Frontera
CrystEngComm 18 (1), 10-23, 2016
Rationalization of Noncovalent Interactions within Six New MII/8-Aminoquinoline Supramolecular Complexes (MII = Mn, Cu, and Cd): A Combined Experimental …
M Mirzaei, H Eshtiagh-Hosseini, Z Bolouri, Z Rahmati, A Esmaeilzadeh, ...
Crystal Growth & Design 15 (3), 1351-1361, 2015
Design of lead (II) metal–organic frameworks based on covalent and tetrel bonding
M Servati Gargari, V Stilinović, A Bauzá, A Frontera, P McArdle, ...
Chemistry–A European Journal 21 (49), 17951-17958, 2015
π-Hole aerogen bonding interactions
A Bauzá, A Frontera
Physical Chemistry Chemical Physics 17 (38), 24748-24753, 2015
A combined theoretical and cambridge structural database study of π-hole pnicogen bonding complexes between electron rich molecules and both nitro compounds and inorganic …
A Bauza, R Ramis, A Frontera
The Journal of Physical Chemistry A 118 (15), 2827-2834, 2014
Substituent effects in halogen bonding complexes between aromatic donors and acceptors: a comprehensive ab initio study
A Bauzá, D Quiñonero, A Frontera, PM Deyà
Physical Chemistry Chemical Physics 13 (45), 20371-20379, 2011
3-Picoline mediated self-assembly of M (II)–malonate complexes (M= Ni/Co/Mn/Mg/Zn/Cu) assisted by various weak forces involving lone pair− π, π–π, and anion··· π–hole interactions
M Mitra, P Manna, A Bauzá, P Ballester, SK Seth, S Ray Choudhury, ...
The Journal of Physical Chemistry B 118 (50), 14713-14726, 2014
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