Abstract: A highly adsorbent, temperature-resistant monolithic activated carbon article is obtained by forming an aqueous emulsion of a polymeric binder, combining the resulting aqueous emulsion with wet, activated carbon particles to produce a slip mixture, forming the obtained slip mixture into a shaped article, and thereafter curing the shaped article.
Abstract: A highly adsorbent, temperature-resistant monolithic activated carbon article is obtained by forming an aqueous emulsion of a polymeric binder, combining the resulting aqueous emulsion with wet, relatively high surface area (>2000 m.sup.2 /g) carbon particles to produce a slip mixture, forming the obtained slip mixture into a shaped structure, and thereafter curing the shaped structure.
Abstract: A highly adsorbent, temperature-resistant monolithic activated carbon article is obtained by forming an aqueous emulsion of a silsesquioxane binder, combining the resulting aqueous emulsion with wet or dry, relatively high surface area (>2000 m.sup.2 /g) carbon particles to produce a slip mixture, forming the obtained slip mixture into a shaped structure, and thereafter curing the shaped structure.