Bond Collection (#34)

Molecular model of ice
Ice. Molecular model of ice, the solid form of water. Each water molecule is made up of one oxygen atom (red ball) bonded to two hydrogen atoms (white balls)

Glucose models

Tertiary alcohol molecule. Molecular model of tertiary butanol (C4H10O), also known as tertiary butyl alcohol, trimethyl carbinol or 2-methyl propan-2-ol

Computer artwork of part of a molecule
Molecule. Computer artwork of part of a molecule depicting its arrangement of atoms (balls). The rods holding the balls together represent the chemical bonds between the atoms

Diamond structure. Molecular model of diamond, a form of the element carbon (C). Carbon atoms are shown as spheres (black) linked by covalent bonds (grey)

Glycine molecule. Molecular model of the simplest amino acid glycine (C2H5NO2). Amino acids are the monomers or building-blocks of the larger protein molecules

Glucose isomer model

Ethanol and methoxymethane molecules. Molecular models of ethanol (CH3.CH2.OH, left) and methoxymethane (CH3.O.CH3). Both compounds contain the same atoms but in different arrangements

Ethane, ethene and ethyne molecules. Molecular models of ethane (C2H6, upper left), an alkane, ethene (C2H4, centre), an alkene, and ethyne (C2H2), an alkyne

Sulphanilamide molecule. Molecular model of sulphanilamide (C6H8N2O2S), also known as 4- aminobenzenesulphonamide. Carbon atoms are black, hydrogen are white, nitrogen are blue

Aniline molecule. Molecular model of aniline (C6H5NH2), also known as aminobenzene or phenylamine. In the model, carbon atoms are black, hydrogen are white and nitrogen is blue

Nitrobenzene molecule. Molecular model of nitrobenzene (C6H5NO2). In the model, carbon atoms are black, hydrogen are white, nitrogen is blue and oxygen are red. Nitrobenzene is a colourless liquid

Silicon tetrafluoride molecule. Chemist holding a molecular ball-and-stick model of the tetrahedral structure of silicon tetrafluoride (SiF4) also known as tetrafluorosilane

Glucose isomer models. Molecular models of the glucopyranose form of glucose. Glucose (C6H12O6) is a hexose sugar. Glucopyranose has a five carbon ring and an additional asymmetric carbon atom

Rubber and gutta-percha molecular models
Molecular models of rubber and gutta-percha. These molecules are isomers. They have the same chemical fourmula but a different molecular structure

Alkane molecules. Molecular models of hexane (C6H14, right) and cyclohexane (C6H12). Carbon atoms are black and hydrogen atoms are white. Hexane is a colourless liquid that is insoluble in water

Alanine isomer models

Molecule. Computer artwork of part of a molecule depicting its arrangement of atoms (balls). The rods holding the balls together represent the chemical bonds between the atoms

TNT molecule. Molecular model of trinitrotoluene (TNT, formula C7H5N3O6), also known as 2, 4, 6- trinitromethylbenzene. In the model, carbon atoms are black, hydrogen are white

Alcohol molecules. Molecular models of four types of alcohol molecule. They are, clockwise from top left: methanol, ethanol, propan-2-ol and propan- 1-ol

Secondary alcohol molecule. Molecular model of secondary butanol (C4H10O), also known as butan-2-ol, secondary butyl alcohol or methylethyl carbinol

Ethyl acetate molecule. Chemist holding a molecular ball-and-stick model of the ester ethyl acetate (CH3.CO2.C2H5). This non-polar, volatile, colourless

Methoxyethane molecule. Molecular model of methoxyethane (CH3.CH2O.CH3), which contains one atom of oxygen (red), three carbon atoms (black) and eight hydrogren atoms (white)

Molecular structure. Computer artwork of a conceptual molecule. Atoms are represented as balls, the bonds between them as sticks

Molecular model. Ball and stick model of the structure of a crystalline molecule showing the regular array of two different types of atom (pink and blue) and the bonds between them

Methanol alcohol molecule. Molecular model of methanol, the simplest alcohol with just one carbon atom (grey). It is a flammable, light, colourless liquid

Superconductor. Molecular model of the crystal structure of magnesium diboride (MgB2), a new super-conductor. Red spheres represent magnesium atoms and purple represent boron atoms

Adrenaline. Computer model of part of the molecular structure of the hormone adrenaline, or epinephrine (formula C9.H13.N.O3)

Adrenaline molecule. Computer graphic of the hormone adrenaline, or epinephrine (formula C9. H13. N.O3). The atoms (spheres) are colour- coded: carbon (yellow), oxygen (red)

Warfarin molecule. Computer graphic of the anti- coagulant drug warfarin (formula C18.H16.O3). The atoms (spheres) are colour-coded: carbon (yellow), oxygen (red) & hydrogen (white)

Trans-dibromoethene molecule. Computer-generated molecular model of trans-dibromoethene (C2H2Br2). The trans form of dibromoethene has bromine atoms (red) on opposite sides of the carbon atoms (black)

Nested fullerene molecules

Ethanol molecule
Ethanol. Computer-generated molecular model of ethanol (CH3.CH2.OH), a type of alcohol. Alcohols comprise a carbon (black) and hydrogen (white) chain with a hydroxyl group (OH)

Dibromoethane molecule. Computer-generated molecular model of 1, 2-dibromoethane (ethylene dibromide, BrCh2.Ch2Br). Carbon atoms are black, hydrogen are white, and bromine are red

Cis-dibromoethene molecule. Computer-generated molecular model of cis-dibromoethene (C2H2Br2). The cis form of dibromoethene has both bromine atoms (red) on the same side of the carbon atoms (black)

Carbon dioxide. Computer-generated molecular model of carbon dioxide (CO2). Carbon dioxide comprises one central carbon atom (black) connected to two oxygen atoms (red)

Methamphetamine molecule. Computer graphic of the drug methamphetamine (formula C10.H15.N), a quicker acting and longer lasting derivative of amphetamine

Mescaline molecule. Computer graphic of the drug mescaline (formula C11.H17.N.O3). The atoms (tubes) are colour-coded: carbon (yellow), oxygen (red), nitrogen (blue) and hydrogen (white)

WORLD WAR I: LIBERTY LOAN. Over the Top for You. American World War I Liberty Loan poster, 1918, by Sidney H. Riesenberg

WAR POSTER, c1917. An American war poster depicting the Statue of Liberty pointing sternly at the viewer, entitled You, Buy a Liberty Bond, Lest I Perish

MARGARET BONDS (1913-1972). American composer and pianist. Photographed by Carl Van Vechten, 1956

Barred Owl; Strix varia;

Kelp Goose (Chloephaga hybrida) adult pair, in courtship display, New Island, Falkland Islands

White-faced Whistling-duck (Dendrocygna viduata) adult pair, courtship preening

Massai Lion (Panthera leo nubica) adult female laying with immature male, Masai Mara, Kenya

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"Bond: A Timeless Connection" In the world of espionage and luxury, one name stands out - Bond. From the iconic Aston Martin DB5, the original James Bond 007 Goldfinger car in its sleek silver glory, to the powerful Aston Martin V12 Vanquish that exudes sophistication and danger, these cars have become synonymous with the legendary spy. But it's not just about fast cars and thrilling adventures. As we see a lady outside a Gucci shop, we are reminded of how Bond effortlessly blends style with his missions. Just like him, she embodies elegance and confidence. Speaking of style, let's not forget the Triumph Stag from Diamonds are Forever – a vibrant yellow beauty that once graced our screens alongside Bond himself. It serves as a reminder that even in high-stakes situations, there is always room for flair. As we explore London's St. James's & Bond Street areas on an intricately detailed map, we realize how deeply ingrained this character is within popular culture. The city itself becomes an extension of his identity – sophisticated yet mysterious. Bond transcends time as well; an early daguerreotype captures our imagination with its depiction of the moon taken by John Adams Whipple and George Phillips Bond back in 1852 at Harvard College Observatory. This reminds us that even centuries ago, people were fascinated by exploration and discovery – qualities shared by both science and spies. The allure continues with posters advertising Austro-Hungarian War Bonds; they serve as a testament to loyalty and dedication to one's cause – values often associated with secret agents like Bond who fight for justice against all odds. However, beyond gadgets and action-packed scenes lies another bond worth mentioning - Amitriptyline antidepressant molecule representing mental health struggles faced by individuals worldwide. It symbolizes resilience amidst adversity—a reminder that heroes too can experience vulnerability beneath their tough exteriors. Ultimately though when thinking about "bond, " our thoughts invariably return to the Aston Martin DB5.