Nosso grupo organiza mais de 3.000 Séries de conferências Eventos todos os anos nos EUA, Europa e outros países. Ásia com o apoio de mais 1.000 Sociedades e publica mais de 700 Acesso aberto Periódicos que contém mais de 50.000 personalidades eminentes, cientistas de renome como membros do conselho editorial.

Periódicos de acesso aberto ganhando mais leitores e citações
700 periódicos e 15 milhões de leitores Cada periódico está obtendo mais de 25.000 leitores

Abstrato

Convenient Synthesis of Micron-sized Macro Porous Polymers with silicon oxide on their Surfaces and glorious sorption Performance for Pb(II) particle

Kannan RS, Kavitha K, Muthukrishnan P, Krishnan NP and Ilayaraja M

The phenol-formaldehyde/silicon oxide rosin (PFSR) adsorbent showed superior sorption properties for atomic number 82 (II) particle. The aimed material was characterised by XRD, FT-IR, SEM and BET techniques. activity properties of the synthesized composite powder were evaluated through activity of lead ions from their binary compound solutions. Batch activity tests were applied at completely different initial significant metal particle concentrations revealing that the synthesized composite has nice property to steer ions. The through an experiment obtained method|natural action|action|activity} results were analysed victimisation pseudo 1st and second order kinetic models to face on the potential activity mechanisms indicating the activity behaviour of the studied ions onto PFSR composite belonged to the pseudo-second order kinetic model and also the activity process was a activity. isopleth plots were made and analysed victimisation Irving Langmuir, Freundlich, Temkin, D-R and Jovanoic isopleth models. The D-R and Temkin isopleth model provided the simplest acceptable the Pb(II) particle, revealing the utmost sorption capability of thirteen.74 mg/g. thermodynamical studies unconcealed that Pb(II) sorption on the PFSR adsorbent may be a favourable, spontaneous, and energy-absorbing method.

Isenção de responsabilidade: Este resumo foi traduzido usando ferramentas de inteligência artificial e ainda não foi revisado ou verificado.