Experiment 1: UV Analysis of Sunscreens
consider two different solutions of the same UV absorbing compound. Upon UV analysis, soltuion b gave an absorbance of .8 and solution a gave an absorbance of .4 at the same wavelngth. solution b is higher in concentration than solution a by what ratio
1:2
what range should the solvent used not absorb above
200 nm
at what two absorbances were absorbances recorded
310 - middle of UVB 360 - middle of UVA
what are the max and min wavelength values in UVB
315 and 290 nm
which sunscreens provided the best protection
neutrogena ultradry sheer dry touch with helioplex and
solutions with greatest long wavlength UVA abs
neutrogena with helioplex
UV Vis spectrum is a plot of the
absrbance versus wavelength
oxybenzone
concentration shoulkd be smaller because many other UVB absorbing ingredients
UBV 290-315
delayed more intense suburn; skin cancar, agig, cataracts, immunosuppresion; somewhat absorbed by atm
UV Vis
detects electronic transitions of conjugated pi systems and provides information about the length and structure of the conjugated part of a molecule
NMR
detects transitions between energy states of nuclei; provides infro about the electronic and molecular environment of the nuclei
what is the relationship between absorbance and cocentration
directly proportional when molar abs and path length held constant
the combination of the active ingredients in the sunscreen each absorb different amounts of UVA and UVB rays so it can cause
discrepancies between the concentrations reported and those expected
what are the limitations of beers law
does not accomodate for when multiple ingredients are present in a solution
what determines the amout of energy needed to get an electron to move to a higher energy level
amount of energy in the excited state
what is charactersitic of the structure of common suncreen ingredients
aromatic rings in conjugation with other functional groups
strongest UVA abs ingredient
avobenzone and octocrylene
helioplex
avobenzone and oxybenzone
which compound provided best UVA protection
avobenzone; mutiple conjugated bonds allowed for lower ebergy absorption in the UVA range
what is a key ingredient a sunscreen shuold have to protect against UVA rays
avobenzone; parsol 1789 or Ti)2 or ZnO
butadiene and butene, which has a higher lambda max
butadiene because of multiple conjugated bonds
UVC 100-290
can be lethal but it is almost totally absorbed by ozone in the earth's atmosphere
what is UV used for
extensively used to determine the concentrations of incredibly dilute solutions; relies on beers law
broad absorption band is a result of
fast electron transitions of the molecule in a variety of vibrational energy states
avobenzone
fewer UVA absorbing ingredients so it had a bigger concentration
UVA readily penetrates
glass; UVB does not
sunscreens with what additive provided the best protection
helioplex
higher concentrations have
higher absorbance values
more conjugated bonds
higher lambda max
higher energy is needed to reach
higher orbitals
wavelength on the
horizontal axis
molar abs
how strong light is absorbed at a particular wavelength
molar extinction coefficient
how strongly a sample absorbs light at that wavelength
UVA 315-400 nm
immediate sunburn; penetrates deeply, may cause skin aging; may contribute to skin cancer and aging
isopropyl alcohol safety hazard
irritant
what was the solvent used in this experiment
isopropyl alcohol
when light strikes a molecule
it is absorbed and causes the molecules electrons to jump from a ground state to an excited state
ultraviolet frequencies
shorter wavelengths and larger energies
Uva light is
lower in energy than the other types
Broad spectrum
suncreens with good UVA protection and SPF levels of more than 15
minimal erythemal dose (MED)
the amount of time one can stay out in the sun before getting sunburned
UV visible energies correspond to electronic transitions
the energy needed to excite an electron from one molecular orbital to another
the more conjugated bonds a molecule has
the less energy required to get the electrons to their excited state because the energy differnece is smaller for pi to pi star
the greater the number of conjugated bonds
the lower energy at which the compound will absorb light
lambda max
wavelength of maximum absorbance
why should you put the solution in the cuvette just before you put it in the spectra
will evaporate and give a higher concentration and therefore a higher absorbance
A=ecl
a=absorbance c=concentration l=path length e=molar coefficient
how much did we dilute the already diluted mixture
100 times
relationship between energy an wavelength
E=hv=hc/lambda
a electron is excited from its
HOMO to its LUMO
molar coefficient units
M^-1 CM^-1
lowest energy wave
UVA
ultraviolet light can be divided into
UVA, UVB and UVC
highest energy wave
UVB
what is the only type of UV light that SPF refers to
UVB
sun protective factor
number that indicates the amount of sun protection a product will offer
what were the possible sunscreen ingredients
padiamate O, 2-ethylhexyl salicylate, 2-ethylhexyl p-methoxycinnate, homosalate, octocrylene, oxybenzone, avobenzone, methyl anthranilate, ecamsule
beers law measures concentration of solutions that may be present in
parts per billion
what kind of transition is observed in this experiment
pi to pi star
absorption of energy in the UV and visible regions is caused by
portion of energy beam being absorbed by molecules when electrons in low-energy orbitals are excited into orbitals of higher enegy
UVA can cause
premature aging and possinle DNA damage
how do zinc and titanium provdide protection
provide a physical barrier to reflect both UVA and UVB rays
when molecules have multiple conjugated bonds
this affects how nuch energy is needed to jump from ground to excited state because the orbitals are closer in ebergy
What was the objective of this lab?
to examine the UV absorbing characteristics of a variety of sunscreen preparations; to use results of UV analysis to calculate concentrations of a UV absorbing compound; examine SPF ratings and understand its limitations and uses; to determine what components in sunscreens give better UVA absorption
absorbance is on the
vertical axis
IR spec
vibrations of moleculer bonds to give info on functional groups and nature of bonding
since different spf values were used
want to dilute by the same factor
