Supported-liquid membrane (SLM) extraction is a miniaturized version of liquid–liquid extraction (LLE), involving a hydrophobic membrane containing an organic solvent in the pores. Compared to LLE, it uses microliter-volumes of organic solvents, and provides high enrichment, outstanding clean-up and no emulsion formation. Here, basic principles and technical aspects as well as new developments in the field are discusse
Supported liquid membrane (SLM) extraction of Cu(II), with di(2-ethylhexyl) phosphate in kerosene as...
Phenol is considered a pollutant in the environment due to its toxicity and carcinogenic effect. Sup...
This thesis deals with the stability of supported liquid membranes (SLMs). The use of SLMs, in which...
Membrane assisted extraction facilitates the integration of classical liquid-liquid extraction (LLE)...
Membrane extraction techniques permit the application of classical liquid-liquid extraction (LLE) ch...
Supported liquid membrane (SLM) is the most effective technique to extract and recover the desired p...
This review examines the recent trends and developments in membrane-based extraction technology, wit...
Novel processes based on SIMALE have been proposed as effective methods for the selective separation...
Summary of thesis EME is an emerging sample preparation technique and a supported liquid membrane (S...
tExtraction of polar endogenous compounds remains an important issue in bioanalysis although differe...
Extraction of Lu(III) from an aqueous LuCl3 solution at pH 3.5 into an organic phase containing 5% (...
This chapter gives a comprehensive overview of the liquid membrane (LM) technology applied for susta...
Bioanalytical chemistry is a challenging field, often involving complex samples, such as blood, plas...
The use of liquid membrane-based extractions is increasingly seen as offering an alternative to conv...
Extraction of Lu(III) from an aqueous LuCl3 solution at pH 3.5 into an organic phase containing 5% (...
Supported liquid membrane (SLM) extraction of Cu(II), with di(2-ethylhexyl) phosphate in kerosene as...
Phenol is considered a pollutant in the environment due to its toxicity and carcinogenic effect. Sup...
This thesis deals with the stability of supported liquid membranes (SLMs). The use of SLMs, in which...
Membrane assisted extraction facilitates the integration of classical liquid-liquid extraction (LLE)...
Membrane extraction techniques permit the application of classical liquid-liquid extraction (LLE) ch...
Supported liquid membrane (SLM) is the most effective technique to extract and recover the desired p...
This review examines the recent trends and developments in membrane-based extraction technology, wit...
Novel processes based on SIMALE have been proposed as effective methods for the selective separation...
Summary of thesis EME is an emerging sample preparation technique and a supported liquid membrane (S...
tExtraction of polar endogenous compounds remains an important issue in bioanalysis although differe...
Extraction of Lu(III) from an aqueous LuCl3 solution at pH 3.5 into an organic phase containing 5% (...
This chapter gives a comprehensive overview of the liquid membrane (LM) technology applied for susta...
Bioanalytical chemistry is a challenging field, often involving complex samples, such as blood, plas...
The use of liquid membrane-based extractions is increasingly seen as offering an alternative to conv...
Extraction of Lu(III) from an aqueous LuCl3 solution at pH 3.5 into an organic phase containing 5% (...
Supported liquid membrane (SLM) extraction of Cu(II), with di(2-ethylhexyl) phosphate in kerosene as...
Phenol is considered a pollutant in the environment due to its toxicity and carcinogenic effect. Sup...
This thesis deals with the stability of supported liquid membranes (SLMs). The use of SLMs, in which...
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