A5108121001- Particle physics theoretical and experimental studies
- Quantum Chromodynamics and Particle Interactions
- Radioactive element chemistry and processing
- High-Energy Particle Collisions Research
- Nuclear Materials and Properties
- Fusion materials and technologies
- Chemical Synthesis and Characterization
- Nuclear reactor physics and engineering
- Nuclear materials and radiation effects
- Covalent Organic Framework Applications
- Computational Physics and Python Applications
- Analytical chemistry methods development
- Membrane-based Ion Separation Techniques
- Neutrino Physics Research
- Radioactive contamination and transfer
- Particle Accelerators and Free-Electron Lasers
- Metal-Organic Frameworks: Synthesis and Applications
- Particle Detector Development and Performance
- Geochemistry and Elemental Analysis
- Membrane Separation Technologies
- Superconducting Materials and Applications
- Lanthanide and Transition Metal Complexes
- Molecular Sensors and Ion Detection
- Asymmetric Hydrogenation and Catalysis
- Thermodynamic and Structural Properties of Metals and Alloys
Nanjing Medical University
2025
Wenzhou Medical University
2025
Zhejiang Normal University
2025
Second Affiliated Hospital of Xi'an Jiaotong University
2025
Qingdao Agricultural University
2024
Tongji University
2024
Sichuan University
2012-2024
South China Normal University
2023
Shandong Center for Disease Control and Prevention
2023
China Academy of Engineering Physics
2013-2022
The China Fusion Engineering Test Reactor (CFETR) is the next device in roadmap for realization of fusion energy China, which aims to bridge gaps between experimental reactor ITER and demonstration (DEMO). CFETR will be operated two phases. Steady-state operation self-sufficiency key issues Phase I with a modest power up 200 MW. II DEMO validation over 1 GW. Advanced H-mode physics, high magnetic fields 7 T, frequency electron cyclotron resonance heating lower hybrid current drive together...
Abstract The oceans contain hundreds of times more uranium than terrestrial ores. Fiber‐based adsorption is considered to be the most promising method realize industrialization extraction from seawater. In this work, a pre‐amidoximation with blow spinning strategy developed for mass production poly(imide dioxime) nanofiber (PIDO NF) adsorbents many chelating sites, excellent hydrophilicity, 3D porous architecture, and good mechanical properties. structural evidences 13 C NMR spectra confirm...
The uranium level in seawater is ≈1000 times as high terrestrial ores and can provide potential near-infinite fuel for the nuclear energy industry. However, it still a significant challenge to develop high-efficiency low-cost adsorbents massively extracting from seawater. Herein, simple fast method through low-energy consumption sunlight polymerization direct fabrication of poly(amidoxime) (PAO) hydrogel membrane, which exhibits adsorption capacity, reported. This PAO owns...
Abstract Highly efficient recovery of uranium from seawater is great concern because the growing demand for nuclear energy. The use amidoxime‐based polymeric fiber adsorbents considered to be a promising approach their relatively high specificity and affinity uranyl. surface area, hydrophility, charge adsorbent are reported critical factors that influence efficiency. Here, porous nanofiber (SMON–PAO) exhibits highest capacity among existing both in 8 ppm spiked (1089.36 ± 64.31 mg‐U per...
Abstract Marine sponges are used as biomonitors of heavy metals contamination in coastal environment they process large amounts water and have a high capacity for accumulating metals. Here, inspired by the unique physical physiological features marine sponges, surface engineered synthetic sponge highly efficient harvesting uranium from natural seawater is developed. An ultrathin poly(imide dioxime) (PIDO)/alginate (Alg) interpenetrating polymer network hydrogel layer uniformly wrapped around...
Abstract For the practical extraction of uranium from seawater, adsorbents with high adsorption capacity, fast equilibrium rate, selectivity, and long service life are needed. Herein, a chimeric spidroin‐based super uranyl‐binding protein (SSUP) fiber was designed by fusing gene (SUP) spidroin. SUP endowed SSUP affinity selectivity to uranium, spidroin gave mechanical strength reusability. The wet is water‐rich hydrogel‐like structure, which provided abundant hydrophilic intermolecular space...
The ocean reserves 4.5 billion tons of uranium and amounts to a nearly inexhaustible supply. Biofouling in the is one most severe factors that hazard extraction even cause failure extraction. Therefore, development adsorbents with biofouling resistance highly urgent. Herein, strategy for constructing anti-biofouling enhanced recovery capacity natural seawater developed. This can be widely applied modify currently available carboxyl-contained adsorbents, including popular amidoxime-based...
A microporous metal–organic framework with a suitable pore/cage-like structure of precise size matching well the xenon atom exhibits commensurate adsorption phenomenon Xe and superior performance for removal from nuclear fuel reprocessing plants.
A bio-inspired cellulose paper-poly(amidoxime) composite hydrogel is explored via UV-polymerization. This has a highly efficient uranium capture capacity of up to 6.21 mg g-1 for WU/Wdry gel and 12.9 WU/Wpoly(amidoxime) in seawater 6 weeks, due its enhanced hydrophilicity, good hydraulic/ionic conductivity broad-spectrum antibacterial performance.
A novel Pb MOF used as a fluorescent probe for nitroaromatic explosives and Fe<sup>3+</sup> shows high sensitivity selectivity.
Phosphate recovery from excess sludge by electrodialysis was investigated on the basis of a reformation enhanced biological phosphorus removal (EBPR) technology. Electrodialysis operations containing conventional (CED), with bipolar membrane (EDBM), and integration CED EDBM were used for phosphate recovery. recovered as concentrated solution phosphoric acid EDBM, respectively. Both batch continuous operation models adopted. Nearly all in could be under CED, ratio reach 95.8% operation. In...
We present a flexible zinc tetrazolate framework with breathing behaviour on Xe adsorption and significantly high Xe/Kr selectivity under flow condition.
In this study, novel biobased pressure-sensitive adhesives (PSAs) derived from epoxidized soybean oils and carboxylic acid-terminated polyesters were developed with flame retardance, thermal stability, peel strength comparable to those of current PSAs. The dynamic mechanical analysis indicated that the PSAs exhibited a response consistent related high-performance properties investigated by thermogravimetric analysis, results suggested onset decomposition temperatures in both nitrogen air...
ZIF-11 derived nanoporous carbons exhibit significantly high Xe adsorption capacity and Xe/Kr selectivity under dilute condition for removal of from nuclear fuel reprocessing plants.