Biotech Collection

The latest thing in flasks, Washington, D. C. 1926 (b/w photo)
1582588 The latest thing in flasks, Washington, D.C. 1926 (b/w photo) by American Photographer, (20th century); (add.info.: Dancer Mlle)

Ag Agricultural Agriculture Bloom Blooming Blossom
A landscape view of a Canola crop in full bloom at sunset during a storm: Namao, Alberta, Canada

Farmer driving a combine during canola harvest
Side view of a farmer driving a combine during a canola harvest; Legal, Alberta, Canada

Swathed canola field at sunset with glowing pink clouds, Alberta, Canada
Swathed canola field at sunset with glowing pink clouds; Legal, Alberta, Canada

glass laboratory flasks
Glass flasks with liquid as used in research and science labs for scientific, medical, and chemical analysis and research

Genetic modification, conceptual image F008 / 2056
Genetically modified plant, conceptual image

DNA sequence, artwork F008 / 3293
DNA sequence, computer artwork

Human genome, conceptual artwork F008 / 3292
Human genome, conceptual computer artwork

Insulin A chain molecule
Insulin A chain. Computer model of an A chain of human insulin that has been synthesized on a crosslinked polystyrene solid support. This is an example of solid phase peptide synthesis (SPPS)

Stem cell sample F007 / 0381
Stem cell sample

Antibody molecule F007 / 0109
Antibody molecule. Crystal structure of a monoclonal immunoglobulin (IgG2a). IgG antibodies are composed of 2 long heavy chains and 2 shorter light chains

Antibody molecule F007 / 0107
Antibody molecule. Crystal structure of a monoclonal immunoglobulin (IgG2a). IgG antibodies are composed of 2 long heavy chains and 2 shorter light chains

Antibody molecule F007 / 0104
Antibody molecule. Crystal structure of a monoclonal immunoglobulin (IgG2a). IgG antibodies are composed of 2 long heavy chains and 2 shorter light chains

Antibody molecule F007 / 0105
Antibody molecule. Crystal structure of a monoclonal immunoglobulin (IgG2a). IgG antibodies are composed of 2 long heavy chains and 2 shorter light chains

Antibody molecule F007 / 0103
Antibody molecule. Crystal structure of a monoclonal immunoglobulin (IgG2a). IgG antibodies are composed of 2 long heavy chains and 2 shorter light chains

Antibody molecule F007 / 0102
Antibody molecule. Crystal structure of a monoclonal immunoglobulin (IgG2a). IgG antibodies are composed of 2 long heavy chains and 2 shorter light chains

Antibody molecule F007 / 0101
Antibody molecule. Crystal structure of a monoclonal immunoglobulin (IgG2a). IgG antibodies are composed of 2 long heavy chains and 2 shorter light chains

Gecko foot C014 / 0963
Gecko foot. Close-up of the foot of a southern turniptail gecko (Thecadactylus solimoensis), showing the adhesive lamellae (ridges)

Imitation honeycomb filling C014 / 0293
Imitation honeycomb filling. Close-up of a acrylic tubes assembled to mimic the honeycomb structure of bee hives. The honeycomb structure offers great strength to weight ratio

Imitation honeycomb C014 / 0294
Imitation honeycomb. Section of material with a design based on the honeycomb structure of bee hives. This structure gives the material great strength whilst keeping its weight to a minimum

Imitation honeycomb filling C014 / 0291
Imitation honeycomb filling. Close-up of a section through acrylic tubes assembled to mimic the honeycomb structure of bee hives. The honeycomb structure offers great strength to weight ratio

Imitation honeycomb filling C014 / 0292
Imitation honeycomb filling. Close-up of a acrylic tubes assembled to mimic the honeycomb structure of bee hives. The honeycomb structure offers great strength to weight ratio

Imitation honeycomb filling C014 / 0290
Imitation honeycomb filling. Top down view of acrylic tubes assembled to mimic the honeycomb structure of bee hives. The honeycomb structure offers great strength to weight ratio

Imitation skin C014 / 0286
Imitation skin. Close-up of the surface of a latex material designed to mimic the look and feel of human skin. The skin is made by SkinBag and is used for fashion clothing and accessories

Iridescence C014 / 0284
Iridescence. Butterfly with iridescent wings on a surface coated with iridescent material. Iridescence is caused by the tiny microstructures of the surface reflecting light in different ways

Artificial mould C014 / 0281
Artificial mould. Close-up of material designed to resemble mould (fungus). This material is used for decorative flocking effects on material surfaces

Plant-based insulating materials C014 / 0322
Plant-based insulating materials. Close-up of two different insulating materials made from plant products; one made from compressed dried algae (top) and the other made from soya (Glycine max)

Hook and loop fastener C014 / 0321
Hook and loop fastener. Close-up of a hook and loop fastener showing the hooks (right) clinging to the loops (left). These common fasteners were inspired by the prickly burrs used by some plants to

Shark-skin-inspired antibacterial surface. Close-up of Sharklet an antibacterial material whose surface structure was inspired by the microstructures found on the surface of shark skin

Artificial gecko feet adhesive C014 / 0313
Artificial gecko feet adhesive. Coloured scanning electron micrograph (SEM) showing the surface of a material that uses a similar structure to that of a geckos foot

Mother of pearl fabric C014 / 0316
Mother of pearl fabric. Close-up of a fabric (left) made using strips of mother of pearl, next to a pearly seashell (right), the source of mother of pearl

Fabric inspired by pine cones C014 / 0308
Fabric inspired by pine cones. Close-up of the surface of a climate-sensitive fabric that reacts to temperature and humidity in a similar manner to that of pines cones

Gecko foot C014 / 0258
Gecko foot. Close-up of the foot of a New Caledonian crested gecko (Rhacodactylus ciliatus), showing the adhesive lamellae (ridges)

Fig tree fabric C014 / 0234
Fig tree fabric. Close-up of fabric made using bark from an African fig (Ficus natalensis) tree. The fabric, known as barkcloth, uses bark from trees grown in Uganda

Hydrophobic paint C014 / 0237
Hydrophobic paint. Close-up of a surface coated in paint that repels water (hydrophobic). This paint has been developed by studying and replicating structures found in nature

Salmon skin leather C014 / 0235
Salmon skin leather. Close-up of leather formed from the skin of a salmon. This eco-friendly product uses discarded skin from the commercial fishing industry

Hydrophobic paint C014 / 0236
Hydrophobic paint. Close-up of a surface coated in paint that repels water (hydrophobic). This paint has been developed by studying and replicating structures found in nature

Fig tree fabric C014 / 0232
Fig tree fabric. Close-up of fabric made using bark from an African fig (Ficus natalensis) tree. The fabric, known as barkcloth, uses bark from trees grown in Uganda

Imitation mother of pearl fabric C014 / 0231
Imitation mother of pearl fabric. Close-up of a fabric made using plastic that has been treated to look like mother of pearl

Imitation mother of pearl fabric C014 / 0230
Imitation mother of pearl fabric. Close-up of a fabric made using plastic that has been treated to look like mother of pearl

Cow biotechnology, conceptual image. This could represent animal cloning for either food or organ harvesting. It could also represent genetic research or genetically modified organisms

Pig biotechnology, conceptual image. This could represent animal cloning for either food or organ harvesting. It could also represent genetic research or genetically modified organisms

DNA construction, artwork
Conceptional computer artwork of a DNA being constructed or repaired

Liposomes, SEM

DNA molecules and Petri dishes
DNA molecules. Computer artwork of three molecules of DNA (deoxyribonucleic acid) emerging from three Petri dishes. DNA contains sections called genes that encode an organisms genetic information

DNA molecule and eggshell
DNA molecule. Computer artwork of a molecule of DNA (deoxyribonucleic acid) emerging from a cracked eggshell in a shaft of light

Young childs face and DNA molecule
MODEL RELEASED. DNA molecule and young childs face. Composite image of a young child looking at a molecule of DNA (deoxyribonucleic acid)

Plant research, conceptual image

All Professionally Made to Order for Quick Shipping

"Unleashing the Power of Biotech: A Journey through Time and Innovation" Step into the world of biotechnology, where flasks hold the key to groundbreaking discoveries. In Washington, D. C. , back in 1926, a black and white photo captures the birth of this revolutionary field. From agriculture to genetics, it has transformed our lives. Witness a farmer driving a combine during canola harvest, showcasing how this science enhances agricultural practices. The swathed canola field at sunset in Alberta, Canada paints a mesmerizing picture with glowing pink clouds. Inside laboratories, glass flasks brim with potential as scientists delve into Ag Agricultural Agriculture Bloom Blooming Blossom - harnessing nature's wonders for sustainable solutions. Genetic modification takes center stage in conceptual images like F008 / 2056; it represents our ability to shape life itself. Delve deeper into DNA sequences depicted in artwork F008 / 3293 - intricate patterns that unlock the secrets of existence. The human genome unravels before our eyes in conceptual artwork F008 / 3292; it holds answers to countless mysteries within us. Zooming closer, we encounter insulin A chain molecules - tiny heroes saving lives every day. These remarkable structures provide hope for those battling diabetes and remind us of biotech's immense impact on healthcare. Biotech is not just about one company; it signifies an entire realm of innovation that continues to evolve. It intertwines science and imagination while pushing boundaries beyond what was once imaginable. So join us on this captivating journey through time and witness how biotech shapes our world today and tomorrow – from flasks filled with promise to fields blooming with possibilities.