SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3023602181> ?p ?o ?g. }

Showing items 1 to 100 of ±153 with 100 items per page.

W3023602181 endingPage "118212" @default.
W3023602181 startingPage "118212" @default.
W3023602181 abstract "Abstract Functionalized metal-organic frameworks (MOFs) and their composites are found one of the best material to develop the thin-film nanocomposite (TFN) membranes and concern water purification technologies with boosted water flux and targeted feeds rejection performance. MOFs with suitable functionalities are found more stable and efficient due to strong interfacial polymerization with free functional groups which consequently resulted in a thin selective nanocomposite layer on the surface of polysulfone flat sheet membranes. Similarly, mesoporous synthetic hectorite (MSH), due to negative surface charge acts as the best support material to avoid high agglomeration of positively charged MOF crystals. Additionally, surface hydroxyl functionalities with high dispersion capability in a polymer monomer solution makes MSH as a promising material for MOF support and development of novel membranes. Herein considering all these advantageous aspects of both material, we have established a novel approach for developing of TFN membranes by incorporating MSH, and composite of MSH and MOF (UiO-66-NH2) nanoparticles in piperazine (PIP) aqueous monomer solution, which were further interfacially polymerized with trimesoyl chloride (TMC) organic phase monomer. The developed nanoparticles (MSH and MSH@UiO-66-NH2) formulation were confirmed by ideal characterization techniques such as, PXRD, FTIR, TGA and SEM. Whereas, alteration impact of MSH and MSH@UiO-66-NH2 nanoparticles on prepared membranes were physicochemically evaluated with original TFC membrane by ATR-FTIR, FE-SEM, HR-TEM, AFM, XPS, TGA, zeta potential and contact angle analysing techniques. The efficacy performance of the developed TFN membranes were compared with thin-film composite (TFC) membrane and found that TFN membranes showed excellent water flux and rejection performances against different synthetic feed solutions including most common salts (i. e. NaCl, Na2SO4, CuSO4, MgSO4, MnSO4), toxic boron in the seawater and bulky humic substances. Interestingly upon incorporation of a small amount of (0.01%) MSH and MSH@UiO-66-NH2 nanoparticles into the developed membrane dramatically improved rejection performance against applied feed solutions in the trend of TFC" @default.
W3023602181 created "2020-05-13" @default.
W3023602181 creator A5026655882 @default.
W3023602181 creator A5056245895 @default.
W3023602181 creator A5063770187 @default.
W3023602181 creator A5088387553 @default.
W3023602181 creator A5090800967 @default.
W3023602181 creator A5091778637 @default.
W3023602181 date "2020-08-01" @default.
W3023602181 modified "2023-10-03" @default.
W3023602181 title "Development of thin film nanocomposite membrane incorporated with mesoporous synthetic hectorite and MSH@UiO-66-NH2 nanoparticles for efficient targeted feeds separation, and antibacterial performance" @default.
W3023602181 cites W1946859525 @default.
W3023602181 cites W1967730341 @default.
W3023602181 cites W1968374082 @default.
W3023602181 cites W1981888819 @default.
W3023602181 cites W1987247186 @default.
W3023602181 cites W1992606282 @default.
W3023602181 cites W1994586399 @default.
W3023602181 cites W2004415837 @default.
W3023602181 cites W2014531256 @default.
W3023602181 cites W2015419632 @default.
W3023602181 cites W2015551229 @default.
W3023602181 cites W2016218699 @default.
W3023602181 cites W2024988100 @default.
W3023602181 cites W2026365859 @default.
W3023602181 cites W2035263294 @default.
W3023602181 cites W2039345056 @default.
W3023602181 cites W2052129267 @default.
W3023602181 cites W2052795541 @default.
W3023602181 cites W2054485647 @default.
W3023602181 cites W2058180482 @default.
W3023602181 cites W2058662428 @default.
W3023602181 cites W2064145094 @default.
W3023602181 cites W2075452977 @default.
W3023602181 cites W2079084908 @default.
W3023602181 cites W2080092908 @default.
W3023602181 cites W2080643832 @default.
W3023602181 cites W2090767336 @default.
W3023602181 cites W2090778393 @default.
W3023602181 cites W2100253254 @default.
W3023602181 cites W2105348564 @default.
W3023602181 cites W2125169274 @default.
W3023602181 cites W2127967908 @default.
W3023602181 cites W2131593287 @default.
W3023602181 cites W2218025900 @default.
W3023602181 cites W2227814085 @default.
W3023602181 cites W2270692015 @default.
W3023602181 cites W2283987916 @default.
W3023602181 cites W2328618036 @default.
W3023602181 cites W236041936 @default.
W3023602181 cites W2460334800 @default.
W3023602181 cites W2490033049 @default.
W3023602181 cites W2518920280 @default.
W3023602181 cites W2563926069 @default.
W3023602181 cites W2567356905 @default.
W3023602181 cites W2570744053 @default.
W3023602181 cites W2577967961 @default.
W3023602181 cites W2586170356 @default.
W3023602181 cites W2596096760 @default.
W3023602181 cites W2620648067 @default.
W3023602181 cites W2626821740 @default.
W3023602181 cites W2738166610 @default.
W3023602181 cites W2749839445 @default.
W3023602181 cites W2751411210 @default.
W3023602181 cites W2768411352 @default.
W3023602181 cites W2770138698 @default.
W3023602181 cites W2789378178 @default.
W3023602181 cites W2795390597 @default.
W3023602181 cites W2805538232 @default.
W3023602181 cites W2806038626 @default.
W3023602181 cites W2884399392 @default.
W3023602181 cites W2884662166 @default.
W3023602181 cites W2886782870 @default.
W3023602181 cites W2895709836 @default.
W3023602181 cites W2896795809 @default.
W3023602181 cites W2898216994 @default.
W3023602181 cites W2900662391 @default.
W3023602181 cites W2901597693 @default.
W3023602181 cites W2912824358 @default.
W3023602181 cites W2921434808 @default.
W3023602181 cites W2940106709 @default.
W3023602181 cites W2945807279 @default.
W3023602181 cites W2954804703 @default.
W3023602181 cites W2988723260 @default.
W3023602181 cites W3152337918 @default.
W3023602181 cites W843007777 @default.
W3023602181 doi "https://doi.org/10.1016/j.memsci.2020.118212" @default.
W3023602181 hasPublicationYear "2020" @default.
W3023602181 type Work @default.
W3023602181 sameAs 3023602181 @default.
W3023602181 citedByCount "72" @default.
W3023602181 countsByYear W30236021812021 @default.
W3023602181 countsByYear W30236021812022 @default.
W3023602181 countsByYear W30236021812023 @default.
W3023602181 crossrefType "journal-article" @default.
W3023602181 hasAuthorship W3023602181A5026655882 @default.
W3023602181 hasAuthorship W3023602181A5056245895 @default.
W3023602181 hasAuthorship W3023602181A5063770187 @default.