Photochemical Reactions — Light-Driven Chemistry

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Photochemical reactions are initiated by the absorption of light (photons) rather than heat. When a molecule absorbs a photon with sufficient energy, an electron is promoted to an excited state, making the molecule more reactive than in its ground state. Photochemistry governs processes as diverse as photosynthesis, vision, photography, atmospheric ozone chemistry, and the degradation of plastics in sunlight.

Reaction Mechanism

The Grotthuss-Draper law states that only absorbed light can cause chemical change. The Stark-Einstein law states that each molecule undergoing photochemical change absorbs exactly one photon (primary process). After absorption, the excited molecule can undergo several pathways: fluorescence (re-emit light), internal conversion (convert to heat), intersystem crossing (change spin state to a longer-lived triplet state), or chemical reaction. Quantum yield measures the efficiency — moles of product per moles of photons absorbed.

Everyday Examples

Sunburn is a photochemical reaction — UV-B light damages DNA in skin cells. Sunscreen absorbs UV photons before they reach skin. Photosynthesis uses chlorophyll to absorb red and blue light, driving the reaction 6CO2 + 6H2O -> C6H12O6 + 6O2. Photography (both film and digital) relies on photochemical conversion of light into chemical or electrical signals.

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Semiconductor lithography uses photochemical reactions in photoresists to pattern circuits at nanometer scales — enabling modern microchips. UV curing of coatings and adhesives is faster and more energy-efficient than thermal curing. Photocatalysis using titanium dioxide can break down pollutants in water and air. Solar cells use photovoltaic effects (related to photochemistry) to generate over 1,300 TWh of electricity globally.

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Safety Note

UV light sources used in photochemistry can cause severe eye and skin damage. Always use UV-blocking goggles and shields. Some photochemical reactions generate reactive oxygen species (singlet oxygen, hydroxyl radicals) that are highly toxic. Store photosensitive reagents in amber bottles away from light.

Dye-Sensitized Solar Cell (Grätzel Cell)

Dye + hν → Dye* → Dye⁺ + e⁻ (into TiO₂)

In a Grätzel cell, a ruthenium dye absorbs sunlight and injects an electron into the conduction band of nanocrystalline TiO₂. …

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Photochemical Smog Formation (NO₂ Photolysis)

NO₂ → NO + O·

Sunlight (< 420 nm) photolyzes nitrogen dioxide to produce nitric oxide and an oxygen atom. The oxygen atom then reacts …

ดูดความร้อน · ΔH = 305.0 kJ

Photochromism of Spiropyran

Spiropyran (colorless) → Merocyanine (colored)

UV light causes the C–O bond in spiropyran to break, opening the ring to form the planar, conjugated merocyanine isomer …

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Chlorophyll Fluorescence

Chlorophyll + hν (blue/red) → Chlorophyll* → Chlorophyll + hν (red)

Chlorophyll absorbs blue (430 nm) and red (660 nm) light, reaching an excited singlet state. Most energy is transferred to …

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Photodegradation of Methylene Blue by TiO₂

C₁₆H₁₈ClN₃S + TiO₂ + hν → CO₂ + H₂O + degradation products

TiO₂ photocatalysis generates hydroxyl radicals and superoxide ions that mineralize organic pollutants like methylene blue into CO₂, water, and simple …

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Photodissociation of Chlorine Gas

Cl₂ → 2Cl·

UV or visible light (< 500 nm) cleaves the Cl–Cl bond homolytically to produce two chlorine free radicals. This is …

ดูดความร้อน · ΔH = 242.6 kJ

Silver Bromide Photodecomposition

2AgBr → 2Ag + Br₂

Silver bromide is more photosensitive than silver chloride and was the primary photosensitive material in photographic film. Blue and UV …

ดูดความร้อน · ΔH = 199.0 kJ

Cis-Trans Isomerization of Retinal

11-cis-Retinal → all-trans-Retinal

When a photon strikes rhodopsin in rod cells of the retina, it causes the 11-cis-retinal chromophore to isomerize to the …

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Photosynthesis

6CO₂ + 6H₂O → C₆H₁₂O₆ + 6O₂

The most important photochemical reaction on Earth. Plants, algae, and cyanobacteria use chlorophyll to capture sunlight and convert carbon dioxide …

ดูดความร้อน · ΔH = 2803.0 kJ

Ozone Formation by UV Light

3O₂ → 2O₃

Ultraviolet radiation (wavelength < 240 nm) splits O₂ molecules in the stratosphere. The resulting oxygen atoms combine with intact O₂ …

ดูดความร้อน · ΔH = 285.4 kJ · ย้อนกลับได้

Silver Chloride Photodecomposition

2AgCl → 2Ag + Cl₂

Silver chloride darkens upon exposure to light as photons provide enough energy to reduce Ag⁺ to metallic silver. This photosensitivity …

ดูดความร้อน · ΔH = 254.0 kJ

Vitamin D₃ Photosynthesis in Skin

7-Dehydrocholesterol → Previtamin D₃ → Vitamin D₃

UV-B radiation (280–315 nm) converts 7-dehydrocholesterol in the skin to previtamin D₃ through a photochemical ring-opening reaction. Previtamin D₃ then …

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Photocatalytic Water Splitting (TiO₂)

2H₂O → 2H₂ + O₂

Titanium dioxide absorbs UV light and generates electron-hole pairs that can split water into hydrogen and oxygen. Discovered by Fujishima …

ดูดความร้อน · ΔH = 572.0 kJ

Luminol Chemiluminescence

C₈H₇N₃O₂ + H₂O₂ → 3-aminophthalate + N₂ + hν (blue light)

Luminol reacts with hydrogen peroxide in the presence of a catalyst (typically iron from hemoglobin in blood) to produce 3-aminophthalate …

คายความร้อน · ΔH = -300.0 kJ

Photolysis of Hydrogen Peroxide

H₂O₂ → 2OH·

UV light (< 300 nm) cleaves the O–O bond in hydrogen peroxide to generate two hydroxyl radicals, among the most …

ดูดความร้อน · ΔH = 213.0 kJ

Firefly Bioluminescence (Luciferin Oxidation)

Luciferin + ATP + O₂ → Oxyluciferin + AMP + PPᵢ + CO₂ + hν

Firefly luciferase catalyzes the ATP-dependent oxidation of luciferin, producing oxyluciferin in an electronically excited state that emits yellow-green light (560 …

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Photoisomerization of Azobenzene

trans-Azobenzene → cis-Azobenzene

UV light (340 nm) converts the thermodynamically stable trans isomer of azobenzene to the cis form through rotation around the …

ดูดความร้อน · ΔH = 50.0 kJ · ย้อนกลับได้

Photolysis of Water (Vacuum UV)

H₂O → H· + OH·

Vacuum UV radiation (< 185 nm) directly dissociates water molecules into hydrogen and hydroxyl radicals. This reaction is significant in …

ดูดความร้อน · ΔH = 498.0 kJ

Photoreduction of CO₂ to Methanol

CO₂ + 3H₂O → CH₃OH + 3/2 O₂

Photocatalysts can reduce CO₂ to methanol using sunlight and water, mimicking photosynthesis to produce liquid fuel. Copper-modified TiO₂ and other …

ดูดความร้อน · ΔH = 727.0 kJ

Photoelectric Effect (Cesium)

Cs + hν → Cs⁺ + e⁻

Photons with energy exceeding the work function of cesium (2.1 eV, wavelength < 590 nm) eject electrons from the metal …

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Photocatalytic NOx Removal

NOₓ + O₂ + H₂O → HNO₃

TiO₂ photocatalyst on building surfaces oxidizes nitrogen oxides (NOx) from vehicle exhaust to nitric acid (HNO₃), which is then washed …

คายความร้อน · ΔH = -206.0 kJ

Ozone Decomposition by UV

2O₃ → 3O₂

UV-C radiation (< 240 nm) and UV-B (240–320 nm) break ozone back into molecular oxygen and atomic oxygen. This absorption …

คายความร้อน · ΔH = -285.4 kJ

Photopolymerization of Acrylates

n CH₂=CHCOOR → [–CH₂–CH(COOR)–]ₙ

UV or visible light activates a photoinitiator that generates free radicals, which then initiate chain polymerization of acrylate monomers. The …

คายความร้อน · ΔH = -78.0 kJ

UV Curing of Epoxy Resins

Epoxy monomer + Photoinitiator → Cross-linked polymer

Cationic photoinitiators generate strong acids upon UV exposure, which catalyze the ring-opening polymerization of epoxy groups. Unlike free-radical photopolymerization, cationic …

คายความร้อน · ΔH = -95.0 kJ

Photochemical Cycloaddition ([2+2])

2 CH₂=CH₂ → Cyclobutane

UV light promotes one alkene to its excited state, allowing a symmetry-forbidden [2+2] cycloaddition that cannot occur thermally according to …

คายความร้อน · ΔH = -109.0 kJ