Ȳڣ܌WʿTʿASW־Wߣʡߣʡ߲˲ţ⣩и߲ѧԱȪи߲˲ţйˮˮίFrontiers in Environmental Science࣬ȻƌWĿרң˲ĿרҡҪ»ײϵзоڷˮˮȥؽ־лȾӦáևصзƻӿ⡢ȻƌWĿȻƌWĿʡȻƌWȿĿ10Environmental Science & TechnologyWater ResearchApplied Catalysis B: EnvironmentalSCIڿ20ƪȨйר3ר1
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(10) Ma, L.; Hu, Y.-b.*; et al., Unveiling the Roles of Alloyed Boron in Hexavalent Chromium Removal Using Borohydride-Synthesized Nanoscale Zerovalent Iron: Electron Donor and Antipassivator. Environmental Science & Technology 2024, 58 (27), 12225−12236. (пԺTOPIF>10Ȼָڿ)
(9) Goyal, N.; et al.; Hu, Y.-b.*, Tailoring Single-metal Atom Catalysts: A Strategic Defects Engineering Approach for Electrochemical Reduction Reactions. Journal of Materials Chemistry A 2024, 12 (31), 19685-19719. (пԺTOPIF>10)
(8) Xie, Y.; et al.; Hu, Y.-b.*, Overlooked encounter process that affects physical behaviors of stabilized nanoscale zero-valent iron during in situ groundwater remediation. Journal of Hazardous Materials 2024, 461, 132547. (пԺTOPIF>10)
(7) Fan, X.; et al.; Hu, Y.-b.*, Facile synthesis of lattice-defective and recyclable zirconium hydroxide coated nanoscale zero-valent iron for robust arsenite removal. Separation and Purification Technology 2022, 302. (пԺTOP)
(6) Hu, Y.-b.*; et al., Insights into the mechanisms of aqueous Cd(II) reduction and adsorption by nanoscale zerovalent iron under different atmosphere conditions. Journal of Hazardous Materials 2022, 440, 129766. (пԺTOPIF>10)
(5) Hu, Y.-b.; et al., Confining polyacrylic acid on the surface of nanoscale zero-valent iron by aluminum hydroxide for in-situ anti-passivation. Journal of Hazardous Materials 2021, 420, 126649. (пԺTOPIF>10)
(4) Hu, Y.-b.; et al., Improved longevity of nanoscale zero-valent iron with a magnesium hydroxide coating shell for the removal of Cr(VI) in sand columns. Environment International 2019, 133, 105249. (пԺTOPIF>10)
(3) Hu, Y.-b.; et al., Autocatalytic degradation of perfluorooctanoic acid in a permanganate-ultrasonic system. Water Research 2018, 140, 148-157. (пԺTOPIF>10Ȼָڿ)
(2) Hu, Y.-b.; et al., Encapsulating nanoscale zero-valent iron with a soluble Mg(OH)2 shell for improved mobility and controlled reactivity release. Journal of Materials Chemistry A 2018, 6 (6), 2517-2526. (пԺTOPIF>10)
(1) Hu, Y.-b.; et al., Influence of a thin aluminum hydroxide coating layer on the suspension stability and reductive reactivity of nanoscale zero-valent iron. Applied Catalysis B: Environmental 2018, 226, 554-564. (пԺTOPIF>20)
