Researching Collection (#3)

OSL dating research C017 / 9993
MODEL RELEASED. OSL dating research. Researcher Michael Myer at work in the OSL Laboratory, Innsbruck University, Innsbruck, Austria

OSL dating research C017 / 9994
MODEL RELEASED. OSL dating research. Researcher Michael Myer at work in the OSL Laboratory, Innsbruck University, Innsbruck, Austria

Discovery of nylon, 1941 re-enactment C018 / 0675
Discovery of nylon, 1941 re-enactment. DuPont chemist Julian Hill (1904-1996) carrying out a re-enactment in 1941 of the discovery of nylon in 1935

Early nylon research, 1940s C018 / 0676
Early nylon research. DuPont research chemist working with nylon 6-6, the original nylon polymer discovered in 1935. First synthesized in February 1935, this new polymer was later commercialised

Wallace Carothers, US chemist C018 / 0621
Wallace Hume Carothers (1896-1937), US industrial chemist, handling a sample of neoprene. Carothers studied at the University of Illinois, receiving his doctorate in 1924

DuPont research, 1950s C018 / 0678
DuPont research. Industrial research chemist watching an organic reaction. The program of fundamental research in organic chemistry at DuPont began in 1927

Citrus greening disease research C018 / 6323
Citrus greening disease research. Scientists performing a genetic (DNA) analysis of populations of psyllid insects collected in North and South America

MESSENGER spacecraft at Mercury, artwork C017 / 7337
MESSENGER spacecraft at Mercury, computer artwork. MESSENGER (MErcury Surface, Space ENvironment, GEochemistry, and Ranging) is a robotic NASA spacecraft orbiting the planet Mercury

Fermi Gamma-ray Space Telescope, artwork C017 / 7230
Fermi Gamma-ray Space Telescope. Computer artwork of the Fermi Gamma-ray Space Telescope in orbit over the Earth. This space observatory was formerly known as the Gamma-ray Large Area Space

Culture in Petri dish, illustration C018 / 0898
Microbial culture in a Petri dish, illustration

Draper observing the Great Comet of 1881 C017 / 6824
Draper observing the Great Comet of 1881. 19th-century artwork of US physician and amateur astronomer Henry Draper (1837-1882) observing and taking photographic records of the Great Comet of 1881

Genetic microarray preparation C019 / 0277
Genetic microarray preparation. Analyst holding a prepared gene chip or microarray, to which samples of DNA (deoxyribonucleic acid) have been added

Genetic karyotype analysis C019 / 0270
MODEL RELEASED. Genetic karyotype analysis. Analyst in a genetics laboratory studying the results after DNA (deoxyribonucleic acid) was isolated from a sample

Genetic karyotype analysis C019 / 0271
Genetic karyotype analysis. Analyst in a genetics laboratory studying the results after DNA (deoxyribonucleic acid) was isolated from a sample

Genetic analysis, hybridization oven C019 / 0275
MODEL RELEASED. Genetic analysis. Analyst placing gene chips or microarrays in a hybridization oven. Gene microarrays are used with automated equipment to investigate

Genetic analysis, pre-PCR workstation C019 / 0294
MODEL RELEASED. Genetic analysis. Analyst in a genetics laboratory preparing samples at a pre-PCR (pre-polymerase chain reaction) workstation

Genetic analysis, DNA isolation C019 / 0264
MODEL RELEASED. Genetic analysis. Analyst using a nucleic acid purification machine to purify and isolate DNA (deoxyribonucleic acid) from blood samples

Genetic analysis, sample preparation C019 / 0263
MODEL RELEASED. Genetic analysis. Analyst in a genetics laboratory preparing blood samples before isolating DNA (deoxyribonucleic acid)

Genetic analysis, DNA isolation C019 / 0261
MODEL RELEASED. Genetic analysis. Analyst using a nucleic acid purification machine to purify and isolate DNA (deoxyribonucleic acid) from blood samples

Genetic analysis, washing samples C019 / 0279
Genetic analysis. Analyst in a genetics laboratory operating a machine (fluidic station) that is being used to wash and label genetic microarrays containing samples of DNA (deoxyribonucleic acid)

Genetic analysis, hybridization oven C019 / 0276
Genetic analysis. Analyst placing gene chips or microarrays in a hybridization oven. Gene microarrays are used with automated equipment to investigate

Genetic microarray preparation C019 / 0274
Genetic microarray preparation. Analyst pipetting a prepared DNA (deoxyribonucleic acid) sample onto a gene chip or microarray

Genetic analysis, scanning samples C019 / 0258
Genetic analysis. Analyst in a genetics laboratory, scanning labelled blood samples. DNA (deoxyribonucleic acid) will be isolated from the samples

Genetic analysis, pre-PCR workstation C019 / 0295
MODEL RELEASED. Genetic analysis. Analyst in a genetics laboratory preparing samples at a pre-PCR (pre-polymerase chain reaction) workstation

Genetic analysis, pre-PCR workstation C019 / 0293
MODEL RELEASED. Genetic analysis. Analyst in a genetics laboratory preparing samples at a pre-PCR (pre-polymerase chain reaction) workstation

Genetic analysis, washing samples C019 / 0278
MODEL RELEASED. Genetic analysis. Analyst in a genetics laboratory operating a fluidic station that is being used to wash and label genetic microarrays containing samples of DNA

Genetic analysis, sample preparation C019 / 0260
Genetic analysis. Analyst in a genetics laboratory preparing blood samples before isolating DNA (deoxyribonucleic acid). This sample preparation will be done with a nucleic acid purification machine

Genetic analysis, labelling samples C019 / 0256
MODEL RELEASED. Genetic analysis. Analyst in a genetics laboratory, labelling and scanning blood samples. DNA (deoxyribonucleic acid) will be isolated from the samples

Genetic sample analysis C019 / 0284
MODEL RELEASED. Genetic sample analysis. Analyst in a genetics laboratory reviewing data obtained from the analysis of a genetic microarray (held in hand)

Scanning genetic microarray C019 / 0285
Scanning genetic microarray. Analyst using a scanner to read the barcode of a gene chip or microarray. Samples of DNA (deoxyribonucleic acid) have been added to the microarray

Genetic karyotype analysis C019 / 0268
MODEL RELEASED. Genetic karyotype analysis. Analyst in a genetics laboratory studying the results after DNA (deoxyribonucleic acid) was isolated from a sample

Genetic microarray preparation C019 / 0273
MODEL RELEASED. Genetic microarray preparation. Analyst pipetting a prepared DNA (deoxyribonucleic acid) sample onto a gene chip or microarray

Genetic microarray preparation C019 / 0272
MODEL RELEASED. Genetic microarray preparation. Analyst pipetting a prepared DNA (deoxyribonucleic acid) sample onto a gene chip or microarray

Scanning genetic microarray C019 / 0286
Scanning genetic microarray. Analyst using a scanner to read the barcode of a gene chip or microarray. Samples of DNA (deoxyribonucleic acid) have been added to the microarray

Genetic microarray, analysis machine C019 / 0282
Genetic microarray, analysis machine. Analyst placing a prepared gene chip or microarray into an analysis machine. Samples of DNA (deoxyribonucleic acid) have been added to the microarray

Genetic sample analysis C019 / 0283
MODEL RELEASED. Genetic sample analysis. Analyst in a genetics laboratory reviewing data obtained from the analysis of a genetic microarray (held in hand)

Genetic analysis, DNA isolation C019 / 0265
MODEL RELEASED. Genetic analysis. Analyst using a nucleic acid purification machine to purify and isolate DNA (deoxyribonucleic acid) from blood samples

Genetic karyotype analysis C019 / 0269
MODEL RELEASED. Genetic karyotype analysis. Analyst in a genetics laboratory studying the results after DNA (deoxyribonucleic acid) was isolated from a sample

Genetic microarray, analysis machine C019 / 0281
MODEL RELEASED. Genetic microarray, analysis machine. Analyst placing a prepared gene chip or microarray into an analysis machine

Genetic analysis, DNA isolation C019 / 0262
MODEL RELEASED. Genetic analysis. Analyst using a nucleic acid purification machine to purify and isolate DNA (deoxyribonucleic acid) from blood samples

Antiproton research, 1958 C014 / 2068
Antiproton research. US physicists Bruce Cork (left) and Glenn Lamberston (right) at the Bevatron Accelerator that has been configured for antiproton research

Alchemy experiment, 19th century
Alchemy experiment. 19th-century artwork showing an alchemist bending over to observe the results of an experiment. The flask in front of him, connected to the furnace at left

Geomagnetism research, 1965 C014 / 2069
Geomagnetism research. US geologists Allan Verne Cox (left, 1926-1987), Richard Doell (centre, 1923-2008), and (Gary) Brent Dalrymple (right)

Antineutron discovery team, 1956 C014 / 2067
Antineutron discovery team, working on the focus magnet of the Bevatron Accelerator, the machine they used to create and detect the anti-particle of the neutron

Carbon dioxide oil extraction research. Professor Julian Eastoe working on research into the use of carbon dioxide to extract oil

Gill in Cape Observatory study. Scottish astronomer David Gill (1843-1914, centre) in his study at the Cape Observatory, South Africa

Scientist holding a test tube C014 / 4628
Scientist holding a test tube

Ares I-X test rocket launch. View of NASAs Ares I-X test rocket being launched from Launch Complex 39B of the Kennedy Space Center, Florida, USA, on 28th October 2009

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"Unveiling the Secrets: A Journey Through Time and Space in Research" Embarking on a scientific odyssey, researchers have been unearthing groundbreaking discoveries for centuries. From the invention of the mass spectrometer in 1954 to Simpson's pioneering work on anaesthetics in the 1840s, these milestones have propelled us forward. Witnessing the space shuttle landing, we marvel at humanity's relentless pursuit of knowledge beyond our earthly boundaries. Meanwhile, a black-capped chickadee poses against a pristine white background, capturing its essence with artistic precision. Intriguingly adorable, a harvest mouse meticulously cleans its nose on common hogweed—a charming moment frozen in time. The anti-proton experiment conducted at Berkeley in 1955 showcases our quest to unravel the mysteries of particle physics. Delving into our roots, we explore intricate family trees that connect generations past and present. A whimsical microbiology caricature from the 19th century reminds us of how far we've come in understanding microscopic life forms. Glimpses into history reveal an early telephone depicted through historical artwork—an innovation that revolutionized communication forever. Soviet Arctic explorer Papanin braves treacherous terrains while Nikolai Vavilov tirelessly studies botany—both emblematic figures who pushed boundaries for scientific exploration. Amidst it all lies elemental analysis—the cornerstone of countless breakthroughs across various disciplines—unlocking nature's secrets one element at a time. Research is not merely about facts; it represents humanity's insatiable curiosity and unwavering determination to push boundaries further than ever before, and is this spirit that propels us towards new frontiers and fuels our endless pursuit of knowledge.