SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4207036233> ?p ?o ?g. }

Showing items 1 to 100 of ±166 with 100 items per page.

W4207036233 endingPage "456" @default.
W4207036233 startingPage "433" @default.
W4207036233 abstract "Water pollution being a global issue is getting worse day by day. Direct disposal of wastewater containing organic and inorganic, dissolved and suspended pollutants may pose serious threats to the terrestrial and aquatic life, thus disturbing the natural ecosystem. Therefore, the treatment of such hazardous wastewater is of utmost necessity. In this context, several physicochemical and biological treatment technologies of wastewater are in progress worldwide. However, some of these conventional wastewater treatment technologies proved to be expensive, time-consuming with maximum manpower and infrastructure requirement with minimum treatment efficiency. Nanotechnology appears as an emergent and diverse field for the effective removal of contaminants from wastewater. Nanomaterials are excellent adsorbents and catalysts due to their larger specific surface areas and high reactive nature. Moreover, the flexibility of nanomaterials in solution is high and even a small number of nanomaterials is enough to degrade pollutants present in wastewater. Nanoparticles can be synthesized through chemical and biological routes. However, among biological methods, “green synthesis/phytogenic-mediated synthesis of nanoparticles” using plants and plant products is an efficient, cost-effective, safe, and environment-friendly approach that does not have high pressure, temperature, and energy requirements as well as does not produce toxic substances. Besides, a huge variety of plants are easily accessible to produce nanoparticles on a large scale" @default.
W4207036233 created "2022-01-26" @default.
W4207036233 creator A5024780791 @default.
W4207036233 creator A5030130512 @default.
W4207036233 creator A5035140337 @default.
W4207036233 creator A5053355047 @default.
W4207036233 creator A5055220628 @default.
W4207036233 creator A5059190149 @default.
W4207036233 creator A5069579523 @default.
W4207036233 date "2022-01-01" @default.
W4207036233 modified "2023-10-08" @default.
W4207036233 title "Phytogenic-mediated nanoparticles for the management of water pollution" @default.
W4207036233 cites W2048335753 @default.
W4207036233 cites W2085130632 @default.
W4207036233 cites W2178019487 @default.
W4207036233 cites W2187020468 @default.
W4207036233 cites W2296106894 @default.
W4207036233 cites W2361439448 @default.
W4207036233 cites W2488815739 @default.
W4207036233 cites W2505410470 @default.
W4207036233 cites W2515275536 @default.
W4207036233 cites W2529194894 @default.
W4207036233 cites W2556866652 @default.
W4207036233 cites W2564956198 @default.
W4207036233 cites W2576994156 @default.
W4207036233 cites W2606499340 @default.
W4207036233 cites W2606725683 @default.
W4207036233 cites W2612496249 @default.
W4207036233 cites W2624469234 @default.
W4207036233 cites W2624694073 @default.
W4207036233 cites W2634296162 @default.
W4207036233 cites W2668655778 @default.
W4207036233 cites W2729082940 @default.
W4207036233 cites W2743374337 @default.
W4207036233 cites W2758233343 @default.
W4207036233 cites W2765909227 @default.
W4207036233 cites W2767025169 @default.
W4207036233 cites W2768445882 @default.
W4207036233 cites W2772075677 @default.
W4207036233 cites W2789282588 @default.
W4207036233 cites W2790748011 @default.
W4207036233 cites W2791392910 @default.
W4207036233 cites W2791401137 @default.
W4207036233 cites W2794379127 @default.
W4207036233 cites W2800172240 @default.
W4207036233 cites W2800729629 @default.
W4207036233 cites W2808053650 @default.
W4207036233 cites W2882149920 @default.
W4207036233 cites W2883318157 @default.
W4207036233 cites W2888584422 @default.
W4207036233 cites W2899512479 @default.
W4207036233 cites W2899786982 @default.
W4207036233 cites W2903385090 @default.
W4207036233 cites W2906942922 @default.
W4207036233 cites W2908073588 @default.
W4207036233 cites W2909858933 @default.
W4207036233 cites W2910975602 @default.
W4207036233 cites W2915085326 @default.
W4207036233 cites W2915237388 @default.
W4207036233 cites W2916733329 @default.
W4207036233 cites W2916932623 @default.
W4207036233 cites W2922400850 @default.
W4207036233 cites W2924503518 @default.
W4207036233 cites W2925405573 @default.
W4207036233 cites W2926928839 @default.
W4207036233 cites W2930473054 @default.
W4207036233 cites W2930858611 @default.
W4207036233 cites W2944370797 @default.
W4207036233 cites W2944857756 @default.
W4207036233 cites W2947603747 @default.
W4207036233 cites W2951018808 @default.
W4207036233 cites W2954677229 @default.
W4207036233 cites W2960798054 @default.
W4207036233 cites W2961807490 @default.
W4207036233 cites W2967649127 @default.
W4207036233 cites W2968332077 @default.
W4207036233 cites W2970431513 @default.
W4207036233 cites W2970772863 @default.
W4207036233 cites W2981140187 @default.
W4207036233 cites W2985195592 @default.
W4207036233 cites W2987646035 @default.
W4207036233 cites W2988933642 @default.
W4207036233 cites W2995215177 @default.
W4207036233 cites W2999401532 @default.
W4207036233 cites W3001585636 @default.
W4207036233 cites W3002442071 @default.
W4207036233 cites W3004185901 @default.
W4207036233 cites W3008821633 @default.
W4207036233 cites W3015923818 @default.
W4207036233 cites W3036295153 @default.
W4207036233 cites W3044481976 @default.
W4207036233 cites W3084080163 @default.
W4207036233 cites W3096883546 @default.
W4207036233 cites W4245297176 @default.
W4207036233 doi "https://doi.org/10.1016/b978-0-12-824547-7.00006-0" @default.
W4207036233 hasPublicationYear "2022" @default.
W4207036233 type Work @default.
W4207036233 citedByCount "0" @default.