Fangyu Zhang
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Explore the profile of Fangyu Zhang including associated specialties, affiliations and a list of published articles.
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Articles
41
Citations
802
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Recent Articles
1.
Zhang F, Wang J
IEEE Trans Cybern
. 2025 Mar;
55(3):1238-1249.
PMID: 40031171
Index tracking is a primary passive investment strategy. Many existing methods, such as cardinality-constrained and regularized regressions, need to prespecify parameters to generate sparse portfolios to track indices, which complicates...
2.
Li Z, Guo Z, Zhang F, Sun L, Luan H, Fang Z, et al.
Nat Commun
. 2025 Jan;
16(1):666.
PMID: 39809831
Amidst the rising prevalence of respiratory diseases, the importance of effective lung treatment modalities is more critical than ever. However, current drug delivery systems face significant limitations that impede their...
3.
Wu S, Yang Y, Lian X, Zhang F, Hu C, Tsien J, et al.
J Am Chem Soc
. 2024 Dec;
146(50):34733-34742.
PMID: 39655603
Lipid nanoparticles (LNPs) are an essential component of messenger RNA (mRNA) vaccines and genome editing therapeutics. Ionizable amino lipids, which play the most crucial role in enabling mRNA to overcome...
4.
Zhang F, Qu H, Li G, Zhu X, Sun Y, Cao Q, et al.
Biomed Mater
. 2024 Oct;
PMID: 39362265
Polyetheretherketone (PEEK), a high-performance special engineering plastic, has gradually been used in bone substitutes due to its wear resistance, acid and alkali resistance, non-toxicity, radiolucency, and modulus close to that...
5.
Cong Y, Zhao Y, Zhao L, Wang Y, Zhang F, Zhao J
Lancet Microbe
. 2024 Jul;
5(10):100916.
PMID: 38968946
No abstract available.
6.
Li Z, Duan Y, Zhang F, Luan H, Shen W, Yu Y, et al.
Sci Robot
. 2024 Jun;
9(91):eadl2007.
PMID: 38924422
Cytokines have been identified as key contributors to the development of inflammatory bowel disease (IBD), yet conventional treatments often prove inadequate and carry substantial side effects. Here, we present an...
7.
Lian T, Yin F, Zhang W, Cao Q, Wang S, Zhou T, et al.
Bioresour Technol
. 2024 Jun;
406:131012.
PMID: 38908762
Anaerobic co-fermentation of swine manure (SM) and apple waste (AW) restricts by the slow hydrolysis of substrates with complex structures, which subsequently leads to low lactic acid (LA) production. Therefore,...
8.
Zhang F, Guo Z, Li Z, Luan H, Yu Y, Zhu A, et al.
Sci Adv
. 2024 Jun;
10(24):eadn6157.
PMID: 38865468
Lung metastasis poses a formidable challenge in the realm of cancer treatment, with conventional chemotherapy often falling short due to limited targeting and low accumulation in the lungs. Here, we...
9.
Cao Q, Zhang W, Yin F, Lian T, Wang S, Zhou T, et al.
Waste Manag
. 2024 May;
185:25-32.
PMID: 38820781
Lactic acid (LA) is an important chemical with broad market applications. To optimize LA production, food waste has been explored as feedstock. Due to the wide variety of food waste...
10.
Lian T, Zhang W, Cao Q, Yin F, Wang S, Zhou T, et al.
J Environ Manage
. 2024 Mar;
356:120573.
PMID: 38479289
Anaerobic co-fermentation is a favorable way to convert agricultural waste, such as swine manure (SM) and apple waste (AW), into lactic acid (LA) through microbial action. However, the limited hydrolysis...