Open AccessNitrogen Adsorption and Surface Texture of High-Area Manganese Oxides Derived from Potassium-Contaminated NH4MnO4
Author(s) -
A.K.H. Nohman,
Mohamed I. Zaki
Publication year - 1994
Publication title -
adsorption science and technology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.682
H-Index - 36
eISSN - 2048-4038
pISSN - 0263-6174
DOI - 10.1177/026361749401100101
Subject(s) - calcination , chemistry , adsorption , sorption , potassium permanganate , texture (cosmology) , manganese , specific surface area , nitrogen , porosity , potassium , inorganic chemistry , analytical chemistry (journal) , chemical engineering , mineralogy , chromatography , organic chemistry , catalysis , artificial intelligence , computer science , image (mathematics) , engineering
Nitrogen sorption isotherms have been determined at 77 K on pre-characterised MnO x bulk samples obtained by calcination at 423–873 K of K + -contaminated NH 4 MnO 4 . The isotherms have been analysed for estimating the surface area and pore structure of the test samples adopting the α s -method and standard adsorption data determined on a local reference material (calcination product of the permanganate at 1273 K for 20 h). The most prominent result of the present investigation is that the presence of K + leads to the formation of a channel-structured KMn 8 O 16 bulk phase at 573 K and the following consequent textural modifications: (i) a considerable increase in the surface area to 205 m 2 /g, (ii) the construction of a uniform pore system consisting of slit-shaped pores with narrow entrances, and (iii) the evolution of energetically uniform internal surfaces of considerable area (= 92 m 2 /g). The results also reveal that the test surfaces generally exhibit a low heat towards N 2 adsorption.