سامانه مدیریت امور پژوهشی دانشگاه اراک | محمدرضا امیدخواه

نام و نام خانوادگی	محمدرضا امیدخواه
شغل	نامشخص
تحصیلات	_
وبسایت
پست الکترونیک	—

	عنوان	مجله
1	A high-efficiency Pebax® 1657-based mixed matrix membrane containing molybdenum oxide particles for enhanced CO2/N2 separation	International Journal of Environmental Science and Technology
2	Improved gas separation performance of PMMA/Matrimid@5218/graphene oxide (GO) mixed matrix membranes	Journal of CO2 Utilization
3	Fine-tuning CO2 separation of mixed matrix membranes by constructing efficient transport pathways through the addition of hybrid porous 2D nanosheets	Chemical Engineering Journal Advances
4	Membrane-based gas separation accelerated by quaternary mixed matrix membranes	journal of natural gas science and engineering
5	The novel Elvaloy4170/functionalized multi-walled carbon nanotubes mixed matrix membranes: fabrication, characterization and gas separation study	Journal of the Taiwan Institute of Chemical Engineers
6	Enhanced CO2 Transport Properties of Membranes by Embedding Nano-Porous Zeolite Particles into Matrimid®5218 Matrix	RSC ADVANCES
7	The effects of aminosilane grafting on NaY zeolite–Matrimid®5218 mixed matrix membranes for CO2/CH4 separation	Journal of Membrane Science
8	CO2 Separation Properties of a Ternary Mixed-Matrix Membrane Using Ultraselective Synthesized Macrocyclic Organic Compounds	ACS SUSTAIN CHEM ENG
9	Superior interfacial design in ternary mixed matrix membranes to enhance theCO2separation performance	Applied Materials Today
10	تهیه غشاهای زمینه مخلوط حاوی نانوذرات اکسید آهن نیکل روی به منظور جداسازی گازهای دی اکسید کربن، نیتروژن و متان	پژوهش هاي كاربردي مهندسي شيمي- پليمر
11	Interior Modification of Nano-Porous Fillers to Fabricate High-Performance Mixed Matrix Membranes	Iranian Journal of Chemical Engineering
12	تهیه غشاهای شبکه آمیخته حاوی پلی اتر بلاک آمید و نانوذرات نقره به منظور بررسی تراوایی گازهای دی اکسیدکربن، نیتروژن و متان	پژوهش نفت
13	Gas Permeation Modeling of Mixed Matrix Membranes: Adsorption Isotherms and Permeability Models	Polymer Composites
14	“Ship-in-a-bottle”, a new synthesis strategy for preparing novel hybrid host-guest nano-composites for highly selective membrane gas separation	Journal of Materials Chemistry A
15	Preparation and characterization of novel Ionic liquid/Pebax membranes for efficient CO2/light gases separation	Journal of Industrial and Engineering Chemistry
16	Interfacial Design of Ternary Mixed Matrix Membranes Containing Pebax 1657/Silver-Nanopowder/[BMIM][BF4] for Improved CO2 Separation Performance	ACS APPL MATER INTER
17	Time-dependent mathematical modeling of binary gas mixture in facilitated transport membranes (FTMs): A real condition for single-reaction mechanism	Journal of Industrial and Engineering Chemistry
18	Preparation and characterization of Ag+ ion-exchanged zeolite-Matrimid®5218 mixed matrix membrane for CO2/CH4 separation	Journal of Energy Chemistry
19	A novel Co2+ exchanged zeolite Y/cellulose acetate mixed matrix membrane for CO2/N2 separation	Journal of the Taiwan Institute of Chemical Engineers
20	Preparation and characterization of Matrimid®5218 based binary andternary mixed matrix membranes for CO2separation	International Journal of Greenhouse Gas Control