Molecule Molecules Collection

Explosion of Sarin nerve gas molecules
Sarin nerve gas. Computer artwork of exploding molecules of the nerve gas Sarin (methylphosphonefluridic, (1-methyl ester, chemical formula (C4.H10.O2.P.F))

Computer graphic of a molecule of ATP
ATP. Computer graphic representation of a molecule of adenosine triphosphate (ATP). The molecule acts as an intracellular battery of metabolic energy

Lycopene molecule, tomato pigment
Lycopene. Computer graphic of lycopene, the red carotenoid pigment of tomatoes, rose hips and many other berries, and flowers of the pot marigold, Calendula officinalis

Alliin molecule
Alliin. Computer model of a molecule of alliin (S-allylcysteine sulphoxide, C6. H11. N. O3. S), an odourless garlic compound

Benzene molecule
Benzene. Computer-generated model of a molecule of benzene (C6H6). The benzene molecule contains six carbon atoms (coloured white) arranged in the form of a ring

Petrol constituent n-octane molecule
n-Octane. Molecular model of the hydrocarbon n- octane (formula: C8H18). The atoms are spherical and colour-coded: carbon (blue) and hydrogen (white)

Diamond crystal, molecular model. Diamond is a form of the element carbon. Each carbon atom (blue) in a diamond molecule is positioned at the centre of a tetrahedron

Phenol (carbolic acid) molecule
Phenol. Molecular model of the historical anti- bacterial agent phenol, also called carbolic acid (formula: C6H6O). The atoms are colour-coded: carbon (blue), hydrogen (white) and oxygen (red)

Iron molecule over water
Iron molecule. Computer artwork of a cubic model of a molecule of alpha-iron floating over water. Iron (Fe) atoms are depicted as spheres

Sarin nerve gas molecule

Fungicide quintozene molecule
Quintozene. Computer model of a molecule of the fungicide quintozene (pentachloronitrobenzene, formula: C6Cl5NO2). The atoms are colour-coded: carbon (blue), chlorine (green)

Cyclobutanone molecule
Cyclobutanone. Computer model of a molecule of cyclobutanone (formula: C4H6O). The atoms are spherical, and are colour-coded: carbon (blue), hydrogen (white) and oxygen (red)

VX nerve gas molecule
VX nerve gas. Computer artwork of a molecule of the nerve gas VX (methylphophonothioic acid, S- [2(diethylamino)ethyl]-2-methylpropyl ester, chemical formula (C11. H26. N. O2.P.S))

Molecular model of phthalic acid

Buckyball (C60) molecule over water
Buckyball. Computer graphic of buckyball (Buckminsterfullerene, C60) molecule hovering over water. The buckyballs constituent spheres represent carbon atoms whilst the lines represent the bonds

Computer graphic of buckyballs (C60)
Buckyballs. Computer graphic of buckyball (Buckminsterfullerene, C60) molecules. The spheres represent carbon atoms whilst the lines represent the bonds between them

Computer graphic of a buckyball (C60)
Buckyball. Computer graphic of a buckyball (Buckminsterfullerene, C60) molecule. The spheres represent carbon atoms whilst the lines represent the bonds between them

Molecules that smell like camphor

Computer graphic of a molecule of AMP
AMP. Computer graphic representation of a molecule of adenosine monophosphate (AMP). Atoms are depicted as spheres, joined by atomic bonds

Formaldehyde molecule
Formaldehyde. Computer graphic representation of a molecule of formaldehyde (methanal). Its molecular formula is HCHO. Atoms are depicted as spheres and colour- coded: carbon (grey)

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"Molecule Molecules: Unveiling the Intricate World of Chemical Structures" An explosive revelation: Witness the intricate dance of Sarin nerve gas molecules, as they collide and create chaos in a deadly explosion. Dive into the realm of bioenergetics with a computer graphic showcasing the complex molecule of ATP, fueling life's essential processes. The vibrant red hue that makes tomatoes irresistible is attributed to lycopene molecules, revealing nature's colorful chemistry at work. From pencil lead to breakthrough technologies, explore the layered beauty and conductivity of graphite on a molecular level. Delve into Alliin molecules found in garlic, unlocking their pungent aroma and potential health benefits for centuries-old remedies. Discover the elegant hexagonal structure of benzene molecules, representing both simplicity and complexity within organic compounds. Journey through petroleum's core composition with n-octane molecules - an essential constituent responsible for powering our vehicles' engines. Marvel at the crystalline perfection of diamond structures; these molecular models showcase nature's ability to create stunning beauty under immense pressure. Uncover Phenol (carbolic acid) molecules' significance as both an antiseptic marvel and precursor to various industrial chemicals we encounter daily. Observe iron molecules gracefully floating over water – a captivating display highlighting chemical interactions between metal ions and their environment. A chilling sight unfolds as Sarin nerve gas takes center stage once again; this time masked by its human-made disguise - a stark reminder of its lethal potency.