Lesson 01 Analytical Chemistry (s).pdf

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ANALYTICAL
CHEMISTRY
Chapter 1

Ma. Cecilia B. Bucasas, RCh
Department of Chemistry
College of Natural Sciences
What is Analytical Chemistry?
Analytical Chemistry
Branch of Chemistry dealing with the chemical
characterization of matter.
Involves a range of techniques to obtain
and assess the:
> qualitative;
> quantitative; and,
> structural information on the
nature of matter.
 Analytical Chemistry
Involves separation, identification and determination of
components in a sample.
 Analytical Chemistry
Chemical analyses can be selective or specific

> selective – analysis that can occur with other substances but
exhibits a degree of preference for the substance of interest or
analyte

> specific – analysis that can occur only for the substance of
interest or analyte
 The Chemical System
Analyte:
Specie of special
interest
Matrix:
Part of sample outside
the analyte
 The Chemical System
Analyte:
Specie of interest

Matrix:
Part of sample outside
the analyte
Application and Importance
 Application and Importance
Quality control (QC);
Monitoring and control of pollutants;
Clinical and biological studies;
Geological assays; and,
Fundamental and applied research.
 Analytical Methods
Qualitative Methods “What is?”
> Information about the identity of atomic or molecular
species or the functional groups present in a sample.

Quantitative Methods “How much?”
> Numerical information as to the absolute or relative amounts
of elements, species or compounds present in a sample.
 Analytical Methods
– performed either through wet-analysis or instrumental
methods

Wet-analysis – usually employs precipitation, titrimetric and
gravimetric methods

Instrumental methods – uses sophisticated instruments
capable of measuring the analyte’s physical and chemical
properties
 Analytical Methods
– can either be destructive or non-destructive analysis

Destructive analysis – ends up consuming the sample or
renders it unusable for the succeeding analyses; true for all, if
not most, wet analyses

Non-destructive analysis – renders the sample usable for the
succeeding analyses as its composition are kept intact; true for
some instrumental analyses
 Analytical Methods
According to amount of analyte or constituent present

> Major – beyond 1%
> Minor – 0.01 to 1.00%
> Trace – less than 0.01%
 Analytical Methods
According to size of the sample

> Macro – beyond 100 mg (or 100 μL)*
> Semi-Micro – 10 to 100 mg
(or 50-100 μL)*
> Micro – 1.0 to 10 mg ( Ultramicro – less than 1.0 mg
 Analytical Methods
According to purpose

> Proximate or partial – determines only a limited number of
species in the sample
> Ultimate – determines the amount of each element in the
sample regardless of composition
> Complete – determines the amount of each element in the
sample present per composition
 Analytical Methods
Comparison of Different Analytical Methods
Steps in Quantitative Analysis
 Selecting a Method
Some factors to consider:

> The level of accuracy/ sensitivity required
> Time and money available for the analysis
> Tools and equipment available
> The number/size/type of samples that will be analyzed
> The complexity of the samples and the number of
components in the sample
 Sampling

– requires proper storage and handling prior, during and after
analysis to ensure stability of the sample

– chain of custody should be observed
Sampling
Sampling Process
 Sampling Process

Gross Sample – representative sample obtained at the
sampling site

Laboratory Sample – homogenized gross sample brought in
the laboratory

Analysis Sample – portion of the laboratory sample used in the
actual test method
 Processing the Sample
Sample pre-treatment

– grinding and filtering
– usually done on dry basis for solid samples to ensure
accurate weight
– dissolution to appropriate solvent
– concentrating if the amount of the analyte is very low
 Eliminating Interferences
– done primarily to ensure elimination (or reduction) of
interference in the sample

> Selecting a method specific to the analyte

> Masking – elimination of an interference from a substance by
converting it to a non-interfering form
> Separation – can be done by precipitation, electrodeposition,
extraction, ion exchange, volatilization or chromatography
 Calibration
Calibration
– process of standardizing analysis output or instrument
readout

– described by a calibration curve

calibration curve – a plot of instrument response as a function
of concentration
 Calibration
– achieved by using the method of standard addition

standard addition – a given amount of sample is “spiked” with a
known amount of standard and any increase in signal due to
the added standard is observed
 Calculating Results
Series Series Series To calculate final results, take into
1 2 3
account the following:
Item 1
> Stoichiometry of the reactions involved
Item 2 in the analysis
> Relationship of the gathered data to the
Item 3
property being measured --> check for
Item 4
equations from literature or derive when
necessary
 Estimating Reliability of
Results
Estimate reliability of results
using statistical tests suitable
for the data gathered and
treatments employed in the
analysis.
THANK YOU