Adam Z Weber
Overview
Explore the profile of Adam Z Weber including associated specialties, affiliations and a list of published articles.
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Articles
43
Citations
440
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Recent Articles
1.
Zeng G, Liu G, Panzeri G, Kim C, Song C, Alley O, et al.
ACS Energy Lett
. 2025 Jan;
10(1):34-39.
PMID: 39816620
Light-driven reduction of CO into chemicals using a photoelectrochemical (PEC) approach is considered as a promising way to meet the carbon neutral target. The very top surface of the photoelectrode...
2.
Lees E, Tournassat C, Weber A, Gilbert P
J Phys Chem Lett
. 2024 Dec;
15(49):12206-12211.
PMID: 39625846
Coral reefs suffer from climate change, including long-term ocean acidification (OA) and warming and short-term bleaching, tropical storms, and pollution events, all of which are increasing in frequency and severity....
3.
Arman T, Komini Babu S, Sabharwal M, Weber A, Pasaogullari U, Spendelow J
Heliyon
. 2024 Sep;
10(18):e37222.
PMID: 39315227
Proton-exchange-membrane fuel cells (PEMFCs) offer a long-term, carbon-emission free solution to the energy needs of the transportation sector. However, high cost continues to limit PEMFC commercialization. Replacing expensive platinum group...
4.
Li M, Lees E, Ju W, Subramanian S, Yang K, Bui J, et al.
Nat Commun
. 2024 Sep;
15(1):8222.
PMID: 39300064
Bipolar membranes in electrochemical CO conversion cells enable different reaction environments in the CO-reduction and O-evolution compartments. Under ideal conditions, water-splitting in the bipolar membrane allows for platinum-group-metal-free anode materials...
5.
King A, Weber A, Bell A
ACS Appl Mater Interfaces
. 2024 Jul;
16(28):36380-36391.
PMID: 38968444
A metal-insulator-semiconductor (MIS) structure holds great potential to promote photoelectrochemical (PEC) reactions, such as water splitting and CO reduction, for the storage of solar energy in chemical bonds. The semiconductor...
6.
Shibata M, Morimoto Y, Zenyuk I, Weber A
J Chem Theory Comput
. 2024 Jul;
20(14):6184-6196.
PMID: 38967285
Electric double layers (EDLs) play fundamental roles in various electrochemical processes. Despite the extensive history of EDL modeling, there remain challenges in the accurate prediction of its structure without expensive...
7.
Hesselmann M, Lee J, Chae S, Tricker A, Keller R, Wessling M, et al.
ACS Appl Mater Interfaces
. 2024 May;
16(19):24649-24659.
PMID: 38711294
Coupling renewable electricity to reduce carbon dioxide (CO) electrochemically into carbon feedstocks offers a promising pathway to produce chemical fuels sustainably. While there has been success in developing materials and...
8.
Srivastav H, Weber A, Radke C
Langmuir
. 2024 Mar;
40(13):6666-6674.
PMID: 38498907
Perfluorosulfonic acid (PFSA) ionomers serve a vital role in the performance and stability of fuel-cell catalyst layers. These properties, in turn, depend on the colloidal processing of precursor inks. To...
9.
Srivastav H, Weber A, Radke C
Langmuir
. 2024 Mar;
40(13):6654-6665.
PMID: 38457278
Charged colloidal particles neutralized by a single counterion are increasingly important for many emerging technologies. Attention here is paid specifically to hydrogen fuel cells and water electrolyzers whose catalyst layers...
10.
Tricker A, Lee J, Babbe F, Shin J, Weber A, Peng X
ACS Energy Lett
. 2023 Dec;
8(12):5275-5280.
PMID: 38094750
Developing efficient and low-cost water electrolyzers for clean hydrogen production to reduce the carbon footprint of traditional hard-to-decarbonize sectors is a grand challenge toward tackling climate change. Bipolar-based water electrolysis...