Toyohisa Fujita
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Explore the profile of Toyohisa Fujita including associated specialties, affiliations and a list of published articles.
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60
Citations
148
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Recent Articles
1.
Zhang P, Wang H, Chen L, Li W, Fujita T, Ning S, et al.
Toxics
. 2024 Oct;
12(10).
PMID: 39453124
With the rapid development of nuclear energy, the contamination of environmental water systems by uranium has become a significant threat to human health. To efficiently remove uranium from these systems,...
2.
Liao L, Chen H, He C, Dodbiba G, Fujita T
Materials (Basel)
. 2024 Oct;
17(19).
PMID: 39410467
Boron is a naturally occurring trace chemical element. High concentrations of boron in nature can adversely affect biological systems and cause severe pollution to the ecological environment. We examined a...
3.
Hu F, Ning S, Li Z, Zhu H, Fujita T, Yin X, et al.
Chemosphere
. 2024 Jun;
362:142676.
PMID: 38936487
A MOF-on-MOF composite derivative material named ZIF-67@Ce-MOF-600 was designed and synthesized. The preparation of ZIF-67@Ce-MOF-600 was optimized from the aspects of the ratio of metal and ligand, heat-treatment temperature. It...
4.
Xu B, Yin X, Ning S, Zhong Y, Wang X, Fujita T, et al.
Toxics
. 2024 May;
12(5).
PMID: 38787129
Zirconium is recognized as one of the main impurities of the rare earth element scandium during purification. It presents significant challenges due to its similar chemical properties, making separating it...
5.
Sun S, Yang M, Wang N, He C, Fujita T, Wei Y, et al.
J Hazard Mater
. 2024 May;
471:134431.
PMID: 38691936
To promote the environmentally friendly and sustainable development of nuclear energy, it is imperative to address the treatment of wastewater generated by the nuclear industry. This necessitates the enhancement of...
6.
Zhong Y, Ning S, Wu K, Li Z, Wang X, He C, et al.
J Environ Manage
. 2024 Feb;
353:120283.
PMID: 38330842
The recovery of rare earth elements (REEs) including neodymium (Nd) and dysprosium (Dy) from NdFeB permanent magnets has become one of the main ways to solve the increased demand for...
7.
Dong H, Ning S, Li Z, Xu S, Hu F, Gao F, et al.
Chemosphere
. 2024 Jan;
350:141184.
PMID: 38215834
Efficient recognition, separation and recovery of palladium from high-level liquid waste (HLLW) not only helps the safe, green and environmentally friendly disposal of nuclear waste, but also is an essential...
8.
Wu K, Ning S, Yin X, Xu S, Zhong Y, Li Z, et al.
Dalton Trans
. 2024 Jan;
53(4):1586-1598.
PMID: 38165017
Accurate separation and efficient recovery of platinum group metals (PGMs, mainly Ru, Rh and Pd) from high level liquid waste (HLLW) is a good choice for clean production and sustainable...
9.
Huang M, Nhung N, Dodbiba G, Fujita T
Ecotoxicol Environ Saf
. 2023 Nov;
268:115700.
PMID: 37976934
Arsenic (As) is a toxic non-essential metal. Its accumulation in rice has not only seriously affected the growth of rice, but also poses a significant threat to human health. Many...
10.
Ma M, Ye Z, Zhang J, Wang Y, Ning S, Yin X, et al.
Water Res
. 2023 Nov;
247:120819.
PMID: 37931357
To address the imperative need for efficient removal of uranium-containing wastewater and mitigate radioactive contamination risks associated with nuclear energy, the development of materials with high removal efficiency and facile...