Manuel F Ruiz-Lopez
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Explore the profile of Manuel F Ruiz-Lopez including associated specialties, affiliations and a list of published articles.
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79
Citations
394
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Recent Articles
1.
Carmona-Garcia J, Saiz-Lopez A, Mahajan A, Wang F, Borrego-Sanchez A, Acuna A, et al.
Proc Natl Acad Sci U S A
. 2025 Mar;
122(10):e2422885122.
PMID: 40030012
In the polar regions, which are vulnerable receptors of mercury pollution, atmospheric mercury depletion events (AMDEs) efficiently convert elemental mercury (Hg(0)) into oxidized mercury (Hg(II)) via bromine oxidation. Hg(II) subsequently...
2.
Martins-Costa M, Ruiz-Lopez M
Angew Chem Int Ed Engl
. 2024 Nov;
64(6):e202418593.
PMID: 39601791
At the air-water interface, many reactions are accelerated, sometimes by several orders of magnitude. This phenomenon has proved to be particularly important in water microdroplets, where the spontaneous oxidation of...
3.
Martins-Costa M, Ruiz-Lopez M
Chemistry
. 2024 Jun;
30(43):e202400825.
PMID: 38838064
The efficient reduction of CO into valuable products is a challenging task in an international context marked by the climate change crisis and the need to move away from fossil...
4.
Anglada J, Martins-Costa M, Francisco J, Ruiz-Lopez M
J Am Chem Soc
. 2024 May;
146(20):14297-14306.
PMID: 38722613
The triplet excited states of sulfur dioxide can be accessed in the UV region and have a lifetime large enough that they can react with atmospheric trace gases. In this...
5.
Martins-Costa M, Ruiz-Lopez M
J Phys Chem B
. 2024 Jan;
128(5):1289-1297.
PMID: 38279927
The development of CO-capture technologies is key to mitigating climate change due to anthropogenic greenhouse gas emissions. These cover a number of technologies designed to reduce the level of CO...
6.
Ruiz-Lopez M, Rivail J
Chemphyschem
. 2023 Jun;
24(15):e202300176.
PMID: 37382192
In this perspective, we briefly present the historical context in which, fifty years ago, dielectric continuum models were developed to incorporate solvent effects into quantum mechanical calculations. Since the first...
7.
Ruiz-Lopez M, Francisco J, Martins-Costa M, Anglada J
Nat Rev Chem
. 2023 May;
4(9):459-475.
PMID: 37127962
This Review aims to critically analyse the emerging field of chemical reactivity at aqueous interfaces. The subject has evolved rapidly since the discovery of the so-called 'on-water catalysis', alluding to...
8.
Martins-Costa M, Ruiz-Lopez M
J Am Chem Soc
. 2023 Jan;
145(2):1400-1406.
PMID: 36622259
It has been recently discovered that chemical reactions at aqueous interfaces can be orders of magnitude faster compared to conventional bulk phase reactions, but despite its wide-ranging implications, which extend...
9.
Ruiz-Lopez M, Martins-Costa M
Phys Chem Chem Phys
. 2022 Dec;
24(48):29700-29704.
PMID: 36453476
We have investigated the origin of the unexpected, recently discovered phenomenon of reaction rate acceleration in water microdroplets relative to bulk water. Acceleration factors for reactions of atmospheric and synthetic...
10.
Gong C, Yuan X, Xing D, Zhang D, Martins-Costa M, Anglada J, et al.
J Am Chem Soc
. 2022 Nov;
144(48):22302-22308.
PMID: 36418024
The multiphase oxidation of SO to sulfate in aerosol particles is a key process in atmospheric chemistry. However, there is a large gap between the observed and simulated sulfate concentrations...