1 |
Catalytically active (Pd) nanoparticles supported by electrospun PIM-1: Influence of the sorption capacity of the polymer tested in the reduction of some aromatic nitro compounds Halder K, Bengtson G, Filiz V, Abetz V Applied Catalysis A: General, 555, 178, 2018 |
2 |
Study on the formation of thin film nanocomposite (TFN) membranes of polymers of intrinsic microporosity and graphene-like fillers: Effect of lateral flake size and chemical functionalization Alberto M, Bhavsar R, Luque-Alled JM, Prestat E, Gao L, Budd PM, Vijayaraghavan A, Szekely G, Holmes SM, Gorgojo P Journal of Membrane Science, 565, 390, 2018 |
3 |
AFM imaging and nanoindentation of polymer of intrinsic microporosity PIM-1 Polak-Krasna K, Fuhrhop C, Rochat S, Burrows AD, Georgiadis A, Bowen CR, Mays TJ International Journal of Hydrogen Energy, 42(37), 23915, 2017 |
4 |
Temperature dependence of gas sorption and permeation in PIM-1 Li P, Chung TS, Paul DR Journal of Membrane Science, 450, 380, 2014 |
5 |
Gas sorption isotherms in swelling glassy polymers-Detailed atomistic simulations Holck O, Bohning M, Heuchel M, Siegert MR, Hofmann D Journal of Membrane Science, 428, 523, 2013 |
6 |
New organophilic mixed matrix membranes derived from a polymer of intrinsic microporosity and silicalite-1 Mason CR, Buonomenna MG, Golemme G, Budd PM, Galiano F, Figoli A, Friess K, Hynek V Polymer, 54(9), 2222, 2013 |
7 |
Gas transport behavior of mixed-matrix membranes composed of silica nanoparticles in a polymer of intrinsic microporosity (PIM-1) Ahn J, Chung WJ, Pinnau I, Song JS, Du NY, Robertson GP, Guiver MD Journal of Membrane Science, 346(2), 280, 2010 |