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[1]田孟杰, Flotation separation of bastnaesite and fluorite using styrylphosphonic acid and cinnamohydroxamic acid as collectors[J].Journal of Molecular Liquids, 2022, 362
[2]田孟杰, Selective flotation separation of cassiterite and calcite through using cinnamohydroxamic acid as the collector and Pb2+ as the activator[J].Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2023, 666
[3]Mengjie Tian, Interaction mechanism of 2-hydroxy-3-naphthyl hydroxamic acid and 1-hydroxy-2-naphthyl hydroxamic acid in the flotation separation of bastnaesite/fluorite: Experiments and first-principles calculations. England.Separation and Purification Technology, 2022, 285: 120307.
[4]Mengjie Tian, Self-Assembly of NaOL-DDA Mixtures in Aqueous Solution A Molecular Dynamics Simulation Study[J].Molecules, 2021, 26 (23)
[5]Mengjie Tian, A reagent scheme for galena/sphalerite flotation separation: Insights from first-principles calculations[J].Minerals Engineering, 2021, 167
[6]Mengjie Tian, Interaction mechanism of the adopted reagents in the flotation recovery of sphalerite and pyrite from a galena flotation tailing: First-principles calculations[J].Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2021, 617
[7]Mengjie Tian, Effect mechanism of nonane-1,1-bisphosphonic acid as an alternative collector in monazite flotation: Experimental and calculational studies.Journal of Rare Earths, 2021
[8]田孟杰, Cassiterite recovery from a sulfide ore flotation tailing by combined gravity and flotation separations[J].Physicochemical Problems of Mineral Processing, 2021, 57: 206-215.
[9]田孟杰, Indium pre-enrichment from a Canadian sulphide ore via flotation technique[J].Minerals Engineering, 2020, 156
[10]Mengjie Tian, Probing the Interaction Mechanism between Benzohydroxamic Acid and Mineral Surface in the Presence of Pb2+ Ions by AFM Force Measurements and First-Principles Calculations.Langmuir, 2020, 36 (28) : 8199-8208.
[11]Mengjie Tian, Understanding the activation mechanism of Pb2+ ion in benzohydroxamic acid flotation of spodumene: Experimental findings and DFT simulations.Minerals Engineering, 2019, 143
[12]Mengjie Tian, Selective Separation Behavior and its Molecular Mechanism of Cassiterite from Quartz using Cupferron as a Novel Flotation Collector with a Lower Dosage of Pb2+ Ions[J].Applied Surface Science, 2019, 486: 228-238.
[13]田孟杰, Understanding the depression mechanism of citric acid in sodium oleate flotation of Ca2+-activated quartz: Experimental and DFT study[J].Minerals Engineering, 2019, 140
[14]田孟杰, Activation role of lead ions in benzohydroxamic acid flotation of oxide minerals: New perspective and new practice[J].Journal of Colloid and Interface Science, 2018, 529: 150-160.
[15]田孟杰, Effects of the preassembly of benzohydroxamic acid with Fe (III) ions on its adsorption on cassiterite surface[J].Minerals Engineering, 2018, 127: 32-41.
[16]田孟杰, Selective Flotation of Cassiterite from Calcite with Salicylhydroxamic Acid Collector and Carboxymethyl Cellulose Depressant[J].Minerals, 2018, 8 (8)
[17]田孟杰, Novel insights into adsorption mechanism of benzohydroxamic acid on lead (II)-activated cassiterite surface: An integrated experimental and computational study[J].Minerals Engineering, 2018, 122: 327-338.
[18]田孟杰, Activation mechanism of Fe (III) ions in cassiterite flotation with benzohydroxamic acid collector[J].Minerals Engineering, 2018, 119: 31-37.
[19]田孟杰, Improved flotation separation of cassiterite from calcite using a mixture of lead (II) ion/benzohydroxamic acid as collector and carboxymethyl cellulose as depressant[J].Minerals Engineering, 2017, 113: 68-70.
[20]田孟杰, Study on the mechanism and application of a novel collector-complexes in cassiterite flotation[J].Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2017, 522: 635-641.
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