Xiaoping Tao
Overview
Explore the profile of Xiaoping Tao including associated specialties, affiliations and a list of published articles.
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Articles
36
Citations
662
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Recent Articles
1.
Feng Y, Gong S, Wang Y, Ban C, Qu X, Ma J, et al.
Adv Mater
. 2024 Dec;
37(6):e2412965.
PMID: 39723725
Achieving efficient and sustainable hydrogen production through photocatalysis is highly promising yet remains a significant challenge, especially when replacing costly noble metals with more abundant alternatives. Conversion efficiency with noble-metal-free...
2.
Liang X, Vequizo J, Lin L, Tao X, Zhu Q, Nakabayashi M, et al.
Adv Sci (Weinh)
. 2024 Nov;
12(3):e2412326.
PMID: 39601320
Increasing the efficiency of visible-light-driven water splitting systems will require improvements in the charge separation characteristics and redox reaction kinetics associated with narrow-bandgap photocatalysts. Although the traditional approach of loading...
3.
Feng Y, Lin C, Ma J, Ban C, Zhao W, Tao X, et al.
Chem Commun (Camb)
. 2024 Sep;
60(79):11156-11159.
PMID: 39291575
We discovered that employing inappropriate calibration curves for activity evaluation resulted in false positive results. Specifically, an artificial efficiency of hydrogen production is exaggerated by up to 2.2-fold if the...
4.
Duan Y, Wang Y, Zhang W, Ban C, Feng Y, Tao X, et al.
Adv Mater
. 2024 Jun;
36(32):e2404900.
PMID: 38857942
Single atom catalyst (SAC) is one of the most efficient and versatile catalysts with well-defined active sites. However, its facile and large-scale preparation, the prerequisite of industrial applications, has been...
5.
Tao X, Zhou X, Li R
Chem Commun (Camb)
. 2024 Apr;
60(39):5136-5148.
PMID: 38656314
Hydrogen production the photocatalytic water splitting reaction on semiconductors presents a promising avenue to directly achieve solar energy conversion and storage. Bismuth-based semiconductors with layered structures, a hierarchical arrangement of...
6.
Lin L, Ma Y, Vequizo J, Nakabayashi M, Gu C, Tao X, et al.
Nat Commun
. 2024 Feb;
15(1):1146.
PMID: 38326437
No abstract available.
7.
Lin L, Ma Y, Vequizo J, Nakabayashi M, Gu C, Tao X, et al.
Nat Commun
. 2024 Jan;
15(1):397.
PMID: 38195692
So-called Z-scheme systems permit overall water splitting using narrow-bandgap photocatalysts. To boost the performance of such systems, it is necessary to enhance the intrinsic activities of the hydrogen evolution photocatalyst...
8.
Xiao J, Nakabayashi M, Hisatomi T, Vequizo J, Li W, Chen K, et al.
Nat Commun
. 2023 Dec;
14(1):8030.
PMID: 38049410
A long-standing trade-off exists between improving crystallinity and minimizing particle size in the synthesis of perovskite-type transition-metal oxynitride photocatalysts via the thermal nitridation of commonly used metal oxide and carbonate...
9.
Lin L, Kaewdee P, Nandal V, Shoji R, Matsuzaki H, Seki K, et al.
Angew Chem Int Ed Engl
. 2023 Aug;
62(42):e202310607.
PMID: 37653542
Photocatalytic water splitting is an ideal means of producing hydrogen in a sustainable manner, and developing highly efficient photocatalysts is a vital aspect of realizing this process. The photocatalyst Y...
10.
Tao X, Zhou H, Zhang C, Ta N, Li R, Li C
Adv Mater
. 2023 Feb;
35(15):e2211182.
PMID: 36779436
Photocatalytic water splitting for solar energy conversion remains challenged by the lack of novel semiconductor photocatalysts with paramount parameters including wide light-harvesting ranges and suitable band structures. Here, a novel...