Chunfeng Mao
Overview
Explore the profile of Chunfeng Mao including associated specialties, affiliations and a list of published articles.
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Articles
19
Citations
203
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Recent Articles
1.
Mao C, Mills M
Biophys J
. 2023 Dec;
123(2):260-271.
PMID: 38111195
XPD helicase is a DNA-unwinding enzyme involved in DNA repair. As part of TFIIH, XPD opens a repair bubble in DNA for access by proteins in the nucleotide excision repair...
2.
Xu R, He M, Feng S, Liu Y, Mao C, Wang Y, et al.
Dalton Trans
. 2023 Oct;
52(41):15057-15070.
PMID: 37812395
Although microstructure optimization is an effective strategy to improve and regulate electromagnetic wave (EMW) absorption properties, preparing microwave absorbents with enhanced EMW absorbing performance and tuned absorption band by a...
3.
Yang C, Mao C, Deng Q, Yang Y, Zhou Y, Zhang Y
J Colloid Interface Sci
. 2023 Apr;
642:283-291.
PMID: 37004262
Covalent organic frameworks (COFs) are excellent candidates for rationally designed metal-coordinated catalysts due to their porous structures and adjustable organic building blocks. In this work, a two-dimensional (2D) COF with...
4.
Su Z, Yang C, Deng Q, Zhou Y, Mao C, Fu Z, et al.
ACS Appl Mater Interfaces
. 2023 Mar;
15(13):16631-16639.
PMID: 36943938
In order to selectively oxidize benzyl alcohol, a novel noble metal catalyst based on polymer ionic liquids with a core-shell structure was created. First, polymer ionic liquid microspheres (PILMs) were...
5.
Mao C, Mills M
bioRxiv
. 2023 Feb;
PMID: 36798221
XPD helicase is a DNA unwinding enzyme involved in multiple cellular processes. As part of TFIIH, XPD opens a repair bubble in DNA for access by proteins in the nucleotide...
6.
Mao C, Yin K, Yang C, Dong G, Tian G, Zhang Y, et al.
J Colloid Interface Sci
. 2021 Nov;
608(Pt 1):809-819.
PMID: 34785458
Controlling the spatial confinement effect and highly dispersed Pd nanoparticles (NPs) can help to improve applicability in catalysis, energy conversion, and separation. However, the nonspatial confinement effect, agglomeration of Pd...
7.
Mao C, Bariya P, Suo Y, Randall L
J Bacteriol
. 2020 Sep;
202(24).
PMID: 32989086
Precursor proteins are translocated across the cytoplasmic membrane in by the general secretory, or Sec, pathway. The main components of the pathway are the integral membrane heterotrimeric SecYEG complex and...
8.
Chattrakun K, Hoogerheide D, Mao C, Randall L, King G
Langmuir
. 2020 May;
36(22):6323.
PMID: 32453585
No abstract available.
9.
Chattrakun K, Hoogerheide D, Mao C, Randall L, King G
Langmuir
. 2019 Aug;
35(37):12246-12256.
PMID: 31448613
Surface-supported lipid bilayers are used widely throughout the nanoscience community as cellular membrane mimics. For example, they are frequently employed in single-molecule atomic force microscopy (AFM) studies to shed light...
10.
Sanganna Gari R, Chattrakun K, Marsh B, Mao C, Chada N, Randall L, et al.
Sci Adv
. 2019 Jun;
5(6):eaav9404.
PMID: 31206019
exports proteins via a translocase comprising SecA and the translocon, SecYEG. Structural changes of active translocases underlie general secretory system function, yet directly visualizing dynamics has been challenging. We imaged...