Paper Publications
- [1] Propanediamine-based absorbents with functionalized hydroxypropyl for efficient CO2 capture via intramolecular synergy, Separation and Purification Technology, 361 (2025) 131353
- [2] Tailoring of a chitosan-based adsorbent with target-specific sites for efficient adsorption-reduction of chromium ion pollutant, Separation and Puri?cation Technology, 360 (2025) 131055
- [3] 2-Hydroxypropyl-diethylenetriamine (HPDETA)-based nonaqueous absorbents for energy-efficient CO2 capture with high stability and low corrosivity,Separation and Purification Technology, 354 (2025) 128819
- [4] Tailoring a MOF-based adsorbent with partitioned aliphatic pore spaces for efficient CH 4 purification from natural gas.:AIChE Jounal. 2024; e18443
- [5] Effect of the Presence of Trace SO2 on Piperazine-Based Amine Absorbents for CO2 Capture.:Chinese Journal of Chemical Engineering,2024, 73, 34-41
- [6] n-Butanol-Regulated Phase Separation of Aminoethylethanolamine (AEEA) as an Efficient Absorbent for CO2 Capture.:Industrial & Engineering Chemistry Research. 2024, 63, 20688−20696
- [7] Highly efficient capture of CO2 through the synergy of intramolecular amines within piperazine-derived alcoholamines.:AIChE Jounal. 2024; e18439
- [8] Synergy Between Electron Donor and Steric Hindrance in Alkylated-Piperazine Absorbents for Efficient CO2 Capture.:Chemical Engineering Journal, 493 (2024) 152561
- [9] Target-Specific Modification of Diethylenetriamine with Hydroxyalkyls: Efficient Absorbents for CO2 Capture.:Separation and Purification Technology, 335(2024),126075
- [10] Endowing the Operability of Supercapacitors at High Temperatures by Regulating the Solvation Structure in Dilute Hybrid Electrolyte with Trimethyl Phosphate Cosolvent.:Small. 2024, 20, 2307945
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Doctoral Degree in Engineering
崔鹏
MOBILE Version