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Colin Pillinger

Colin Trevor Pillinger CBE FRS (9 May 1943 – 7 May 2014) was a planetary renowned for his pioneering work in sample and his of the Mars lander mission. Born in Kingswood, , Pillinger earned a BSc in chemistry from University College Swansea in 1965 and a in the same field from the same institution in 1968. Early in his career, he analyzed lunar samples from the mission at the , contributing to the understanding of the Moon's composition. He later held positions at the and the before joining the in 1983 as a lecturer, rising to Professor of Planetary Sciences in 1991. Pillinger's research focused on meteorites and planetary materials, where he developed innovative techniques such as stepped combustion to detect trace organic compounds, aiding the identification of Martian meteorites in the SNC group. Pillinger's most prominent achievement was spearheading the Beagle 2 project, a British-led Mars lander launched aboard the European Space Agency's Mars Express spacecraft in June 2003, which aimed to search for signs of life on the Red Planet but lost contact after landing on Christmas Day that year. In 2015, high-resolution images from NASA's Mars Reconnaissance Orbiter confirmed that Beagle 2 had landed successfully but failed to fully deploy its solar panels, preventing communication. Despite the mission's failure to communicate, it galvanized public interest in space exploration and highlighted the UK's capabilities in planetary science. He also contributed to the Rosetta mission by leading the development of the Ptolemy gas chromatograph mass spectrometer, deployed to comet 67P/Churyumov–Gerasimenko in 2014. Elected a Fellow of the Royal Society in 1993, Pillinger received the CBE in 2003 and the Royal Society's Michael Faraday Prize in 2011 for his efforts in communicating science. Diagnosed with multiple sclerosis in 2005, he continued his advocacy for space missions until his death from a brain hemorrhage in 2014.

Early life and education

Childhood and family

Colin Pillinger was born on 9 May 1943 in a modest red-brick house in Kingswood, , , a working-class area near . He was the second child of Alfred Pillinger, a manual worker and fitter for the Gas Board, and Florence Pillinger (née Honour), a housewife. The family's working-class roots shaped Pillinger's pragmatic approach to problem-solving, influenced by his father's hands-on mechanical work repairing gas infrastructure and emphasis on persistence over defeat. Pillinger attended Kingswood Grammar School starting in 1954, after passing the exam at age 11. Though he enjoyed and social activities more than academics, he displayed a natural aptitude for , particularly chemistry, which came easily to him despite his self-described lack of scholarly inclination. His early fascination with space was ignited by popular media, including the serial (1953–1958) and Dan Dare comics in The Eagle, which fueled his imagination for interstellar adventure. This interest deepened in 1957 with the launch of , the first artificial satellite, which captivated Pillinger and aligned with his school's connection to astronomer , a Kingswood alumnus whose tracked the event. These experiences steered his youthful curiosity toward space science, complementing his emerging strengths in chemistry and laying the groundwork for his later university studies in the subject.

Academic background

Pillinger earned his degree in Chemistry from University College of Swansea (now ) in 1965, after beginning his studies there in 1961. During his undergraduate years, he initially approached practical laboratory work with limited enthusiasm but became engaged through a final-year research project that introduced him to . He pursued postgraduate studies at the same institution, completing his in in 1968 under the supervision of James Ballantine. His doctoral thesis focused on investigating the structures of organic molecules, employing techniques such as and (NMR) spectroscopy. This work involved hands-on experience with the installation and operation of a new , fostering his foundational expertise in . Through his mentorship under Ballantine and exposure to leading figures like John Beynon, an expert in , Pillinger developed a strong interest in advanced analytical methods during his early academic training. These experiences at laid the groundwork for his later applications of in , emphasizing precise molecular analysis.

Scientific career

Academic positions

Following his PhD in chemistry from the University of Swansea in 1968, which equipped him with expertise in , Pillinger began his academic career as a at the , where he worked from late 1968 into the early 1970s. During this period, he contributed to analyzing lunar samples from NASA's Apollo missions as part of the scientific allocation. In the mid-1970s, Pillinger transitioned to the , serving as a senior research associate in the Department of Mineralogy and (later Sciences) from 1976 to 1984. He continued his involvement in extraterrestrial sample analysis during this time, building on his earlier NASA collaboration. In 1984, Pillinger joined the as a and researcher, where he established the Planetary Sciences Unit, which evolved into the Planetary and Space Sciences Research Institute. He was promoted to Professor of Interplanetary Science in 1991, a position he held until his retirement, during which he led the institute's growth in planetary studies. From 1996 to 2000, Pillinger served as Gresham Professor of Astronomy at in , a role that involved delivering public lectures on space science topics, continuing a tradition held by figures such as .

Research on extraterrestrial materials

Pillinger was a leading expert in applied to , particularly through his development of stepped techniques that enabled precise measurements of carbon and isotopes in small samples of lunar and meteoritic rocks. These methods involved heating samples incrementally in a vacuum to release volatiles at specific temperatures, allowing differentiation between indigenous planetary components, implants, and terrestrial contaminants. His innovations, refined during his time at the , became standard for analyzing trace volatiles in . During the , Pillinger contributed to the extensive analysis of lunar samples returned between 1969 and 1972, focusing on volatile elements from 1970 to 1976 as part of the receiving laboratory efforts. Working with teams at and , he examined numerous and rock fragments using static and acid etching to identify solar wind-implanted , such as argon-36, which provided insights into the Moon's exposure history to particles. In lunar breccias, his studies revealed carbon and nitrogen signatures attributable to implantation rather than indigenous organics, with carbon contents varying by site and linked to maturation; for instance, breccias showed elevated low-temperature carbon releases consistent with solar-derived hydrocarbons. These findings helped establish that the lunar surface records chemistry without significant abiotic or biotic organic preservation. Pillinger extended his isotope techniques to meteorite research, notably investigating finds through collaborations with NASA's Antarctic Meteorite Program. In 1996, his group's of the using stepped combustion examined and isotopes in carbonates and silicates, revealing trapped ancient Martian atmospheric components with δ¹⁵N values up to +143‰, suggesting fluid-rock interactions and contributing to the scientific debate on potential biogenic signatures amid claims of microfossils. His work on other meteorites, including carbonaceous chondrites, further illuminated volatile distributions, distinguishing organics from contaminants and tracing parent body processes. Over his career, Pillinger authored more than 500 scientific publications on volatile elements in planetary materials, profoundly influencing models of solar system formation by elucidating how gases and organics were incorporated into primitive bodies like the and asteroids. His emphasis on isotopic fractionation and effects provided foundational evidence for the dynamical mixing of materials in the early solar .

Beagle 2 project

The Beagle 2 project originated in May 1997 when Colin Pillinger, a planetary scientist at the , proposed a UK-led lander as a for the European Space Agency's (ESA) mission, aimed at searching for traces of past or present . As , Pillinger led the initiative, drawing on his prior expertise in for extraterrestrial sample analysis to secure approximately £25 million in funding from the government through the Department of Trade and Industry and Particle Physics and Astronomy Research Council, supplemented by contributions from ESA and private sources. This low-cost approach emphasized innovation and collaboration among UK institutions, universities, and industry partners, positioning as a compact, affordable alternative to larger international missions. The lander was designed as a lightweight, 30 kg with a folded of about 1 meter, optimized for passive entry, , and using airbags to cushion impact on the Martian surface. Its scientific payload included the Gas Analysis Package (), featuring a magnetic capable of detecting and isotopically analyzing nanogram quantities of compounds in soil and rock samples through stepped ; stereo cameras for ; a for close-up examination; an spectrometer for elemental composition; a Mössbauer spectrometer for ; and environmental sensors including to capture and mechanical sounds. These instruments were selected to investigate geological and biological signatures, such as carbon and water-related minerals, in the Isidis Planitia region. Beagle 2 launched aboard ESA's orbiter on June 2, 2003, from , separating successfully on December 19, 2003, for a planned landing on December 25. However, after entry into the Martian atmosphere and deployment, no signals were received from the lander, with contact lost immediately following the expected ; initial investigations suggested possible issues with unfolding or communication deployment, exacerbated by a rushed timeline and funding constraints. In 2015, NASA's , using the camera, captured images confirming Beagle 2's location in Isidis Planitia, revealing the lander intact but with only partial deployment—two panels fully open, one partially extended, and the fourth folded—indicating it survived landing but failed to fully activate. A 2016 ESA-commissioned analysis, incorporating these images and data, concluded that the most probable failure causes were complications during deployment, potentially due to interference or mechanical snags, preventing sufficient generation and communication. Pillinger played a pivotal role as the project's public face, tirelessly advocating for its approval amid skepticism from ESA and UK funding bodies by leveraging the historical analogy to HMS Beagle's voyage with , symbolizing a quest for life's origins. His emphasis on low-cost, "can-do" innovation inspired widespread public and media support in the , including celebrity endorsements and a dedicated pop song as the lander's signal tone, though the mission's loss drew criticism for its informal management structure.

Other space missions

A significant portion of Pillinger's later career centered on ESA's mission (2004–2014), where he served as principal investigator for the instrument aboard the Philae lander. , a compact gas chromatograph and mass spectrometer developed by his team at the , was designed to measure isotopic ratios and detect volatiles like water, , and directly from the surface of 67P/Churyumov–Gerasimenko. Drawing from his experience with miniaturized instruments on , Pillinger's contributions emphasized robust, low-power designs for analysis. The lander's brief operations in November 2014 yielded spectra that detected organic molecules, aligning with Pillinger's long-standing hypotheses on the potential for prebiotic chemistry in cometary materials. As a co-investigator on the broader , Pillinger provided expertise that complemented the COSAC instrument on Philae, which focused on molecule detection through gas chromatography-. His input helped integrate these tools to explore the comet's surface chemistry, with combined data from and COSAC revealing a complex mix of volatiles and that supported theories of comets as building blocks of life. Beyond specific instruments, Pillinger advocated strongly for increased participation in ESA's programs, emphasizing the value of sample return missions. He influenced discussions on concepts like Mars Sample Return by promoting collaborative, cost-effective approaches that leveraged UK strengths in analytical instrumentation, drawing parallels to his successes with lunar and studies. This advocacy helped secure funding and roles for UK scientists in efforts, fostering a legacy of interdisciplinary and .

Public engagement

Media and outreach efforts

Colin Pillinger was renowned for his engaging media presence, which popularized through television appearances that highlighted his distinctive accent and charismatic, cigar-smoking persona. He frequently appeared on 's long-running astronomy program , where he discussed topics such as the search for and the lander's mission objectives. For instance, in a 2003 episode titled "," Pillinger explained the British lander's design and scientific goals to host , making complex concepts accessible to a broad audience. He also featured in documentaries, including the 2015 Witness History episode on the mission, where archival audio of Pillinger underscored his role in building public excitement around the project despite its challenges. Pillinger extended his outreach through public lectures, particularly during his tenure as Gresham Professor of Astronomy from 1996 to 2000, where he delivered free talks on planetary exploration to inspire diverse audiences. His lectures covered subjects like the giant planets of the solar system and the logistical challenges of human missions to Mars, drawing on his expertise in to demystify space science. As head of Planetary and Space Sciences at the , he contributed to educational initiatives. A vocal advocate for increased UK investment in space exploration, Pillinger leveraged his media visibility—particularly through the Beagle 2 project—to campaign for public and government funding, emphasizing the mission's potential to advance national scientific capabilities. He appeared on radio programs, such as interviews, to argue for greater support amid limited budgets, contrasting the £50 million Beagle 2 cost with larger international efforts like NASA's. His efforts secured contributions from private donors and government sources, using engaging narratives to rally support. Pillinger's outreach significantly boosted public interest in STEM fields, especially among young people, by presenting as an exciting, relatable pursuit. Teachers and viewers credited his enthusiastic TV and lecture style with inspiring career aspirations; for example, a 2007 school visit left students motivated to pursue , while Beagle 2 coverage influenced teenagers to enter space-related professions. His approachable explanations revived national enthusiasm for , earning recognition from builders and families alike as "the Beagle 2 bloke."

Publications and books

Throughout his career, Colin Pillinger authored or co-authored numerous scientific publications, spanning analyses of and space mission instrumentation. His work emphasized isotopic and volatile composition studies, with seminal contributions including early investigations into lunar carbon chemistry. These papers, often appearing in high-impact journals like and , established key methodologies such as stepped combustion for volatile extraction. Pillinger also advanced meteoritics through contributions to specialized journals, including multiple articles in Planetary and Space Science on topics like nitrogen isotopes in diamonds and Martian meteorite organics. In addition to peer-reviewed output, Pillinger wrote popular books that bridged scientific rigor with personal narrative. His 2003 book, Beagle: From Darwin's Epic Voyage to the British Mission to Mars, published by Faber & Faber, draws parallels between Charles Darwin's HMS Beagle expedition and the Beagle 2 Mars lander, explaining the mission's scientific goals and engineering challenges. The 2010 memoir My Life on Mars: The Beagle 2 Diaries, issued by the British Interplanetary Society, chronicles the project's development, setbacks, and launch, offering an insider's view of UK space efforts. These works blend autobiography with accessible science, underscoring themes of perseverance amid funding hurdles and technical obstacles in space exploration.

Recognition

Awards

Colin Pillinger received numerous awards recognizing his contributions to , particularly his pioneering applications of to extraterrestrial materials analysis, as well as his leadership in space missions and efforts in science communication. In 1993, he was elected a (FRS) for his significant advancements in , including isotopic studies of meteorites that provided insights into solar system formation. That same year, he became a of the Royal Geographical Society, honoring his interdisciplinary work in and . Pillinger's innovative use of was acknowledged with the Aston Medal from the British Mass Spectrometry Society in 2003, awarded for his outstanding contributions to the field, such as developing techniques to detect organic compounds in lunar and meteoritic samples. Also in 2003, he was appointed Commander of the (CBE) in the Queen's Birthday Honours for his leadership of the Mars lander project and services to and science. For his exceptional public engagement, Pillinger received the Royal Society's in 2011, which celebrated his ability to inspire audiences with talks on topics like meteorites and space missions, fostering greater public understanding of science. Additionally, in 1984, the awarded him an honorary (DSc) degree, recognizing his early research on organic geochemistry conducted while at the institution. These accolades underscored Pillinger's role in motivating future scientists through his blend of rigorous research and accessible outreach.

Honors and legacy namings

Following Colin Pillinger's death in May 2014, several posthumous namings honored his contributions to . In June 2014, NASA's team designated "Pillinger Point," a ridge on the western rim of Endeavour Crater, as an informal tribute to him, recognizing his leadership of the mission to search for signs of . The main-belt 15614 Pillinger, discovered on 7 April 2000 and officially named in 2004, also stands as a lasting celestial acknowledgment of his work. Memorial initiatives further perpetuated his influence. In December 2014, the Royal Society established the Colin Pillinger International Exchanges Award to foster among planetary scientists worldwide, commemorating his dedication to advancing through international partnerships and public engagement. Pillinger's legacy profoundly shaped the UK space sector. The 2015 rediscovery of the Beagle 2 lander on Mars—revealed through high-resolution images from NASA's —confirmed its successful touchdown in 2003, validating his vision for affordable, innovative missions despite the failure to fully deploy solar panels and communicate. This event, occurring nearly a year after his death, reignited interest in his pioneering approach and inspired growth in British space endeavors. His advocacy for UK involvement in projects paved the way for increased participation in the program, enhancing national expertise in Mars exploration and securing greater (ESA) commitments to British-led initiatives. Beyond institutional tributes, Pillinger's mentorship trained numerous researchers in extraterrestrial materials analysis and mission design, fostering a new generation of planetary scientists at institutions like the . His broader influence amplified ESA funding and policy support for UK space projects in the years following 2014, building on his lifetime efforts to elevate Britain's role in global space science.

Personal life

Family and relationships

Colin Pillinger married Judith Hay in 1975, whom he met while working in the same laboratory at the ; she was a at the time and later became a space scientist herself. The couple shared a close partnership, with Judith providing crucial emotional support throughout Pillinger's career, often described as his "rock" amid the pressures of scientific endeavors. Their professional lives intersected notably during the project, where Judith collaborated with him by touring conferences together in the preliminary stages to garner support for the mission, and she even suggested naming the lander after Charles Darwin's ship . The Pillingers had two children: a son, Nicolas, and a , Shusanah. Their family life was centered in , where they resided for many years, balancing Pillinger's demanding career in with domestic routines. Shusanah showed early interest in her father's work by constructing a cardboard development model of the lander in 1997 using household materials on the family kitchen table, and she later contributed to the project team. Judith's scientific background complemented Pillinger's pursuits, fostering an environment where became a shared family interest, with discussions of missions likely influencing the household dynamic.

Health challenges and death

In 2005, Colin Pillinger was diagnosed with primary progressive after experiencing difficulties with walking for two years. The condition progressively affected his mobility, eventually requiring him to use crutches outside his home and laboratory, and later a or for daily activities. Despite the diagnosis at age 62—an age atypical for the disease, which more commonly onset in younger adults—Pillinger remained determined not to let it halt his pursuits. Pillinger adapted to his illness by modifying his lifestyle, with support from his family enabling him to maintain his professional commitments. He publicly shared his experience with in interviews to raise awareness about the condition, emphasizing its challenges while championing broader scientific endeavors rather than focusing solely on research. Even as the disease slowed his pace, he continued contributing to space missions, including his role as for the Ptolemy instrument on the European Space Agency's mission's Philae lander, attending meetings and events in his . On 7 May 2014, Pillinger suffered a severe brain hemorrhage while sitting in his garden at home in , leading to a deep coma. He died peacefully later that day at , aged 70, just days before his 71st birthday. His passing occurred months before the successful landing of Philae on 67P/Churyumov–Gerasimenko in 2014, an event he had eagerly anticipated. Pillinger's family announced his death, noting that he had been actively engaged in his garden moments before the incident. Tributes from the poured in, praising his unyielding passion for and his resilience in the face of declining health, with colleagues recalling how his enthusiasm never waned despite physical limitations.

References

  1. [1]
    Colin Trevor Pillinger. 9 May 1943—7 May 2014 - Journals
    Jan 17, 2024 · Colin Pillinger was a larger-than-life planetary scientist with an infectious enthusiasm for science. He was a founding member of the Planetary and Space ...
  2. [2]
    Colin Pillinger obituary - The Guardian
    May 8, 2014 · Colin Pillinger, who has died aged 70 after suffering a brain haemorrhage, will be recalled as the man who tried to land Britain on Mars.Missing: biography | Show results with:biography
  3. [3]
    Professor Colin Pillinger CBE FRS - GOV.UK
    May 8, 2014 · Colin began his career with a PhD in chemistry from the University of Swansea. He then became a research fellow at Cambridge University and then ...Missing: biography planetary
  4. [4]
    Professor Colin Pillinger obituary: Scientist who became the public
    ### Summary of Colin Pillinger's Childhood, Family, Early Life, Education, and Interests
  5. [5]
    The pleasure principle: An interview with Colin Pillinger - ESA
    Colin Pillinger could be counted among the hardest-working people in space science today, having toiled ceaselessly over the last six years to get Beagle 2 to ...Missing: biography | Show results with:biography<|control11|><|separator|>
  6. [6]
    BBC Inside Out - Man With A Mission
    Jan 5, 2004 · ... Colin Pillinger. Date of birth: May 9 1943. Place of birth: Kingswood, Bristol. Education: Kingswood Grammar School and Swansea University.Missing: parents | Show results with:parents
  7. [7]
    Colin Pillinger - The Times
    May 8, 2014 · Born in 1943, he grew up listening to Journey into Space on the radio and reading the Eagle comic and tales of Dan Dare. “I was not an ...
  8. [8]
    Colin Pillinger dies aged 70 - Cambridge - Varsity
    May 8, 2014 · Pillinger, who was a Senior Research Associate at Cambridge from 1976 to 1984, was best known as lead scientist for Beagle 2, a British-led ...Missing: lecturer | Show results with:lecturer
  9. [9]
    Professor Colin Pillinger FRS - Gresham College
    Professor of Astronomy (1996–2000) Head of Planetary and Space Sciences, Open University, and Principal Investigator for the Beagle 2, Mars Express.Missing: positions Cambridge Bristol
  10. [10]
    Professor Colin Pillinger | The Herald
    May 8, 2014 · He was a research associate at the University of Bristol and then, from 1976-1984, the University of Cambridge. In 1984, he received his DSc ...
  11. [11]
    Organic analysis of the returned Apollo 11 lunar sample
    Organic analysis of the returned Apollo 11 lunar sample P. I. ABELL, C. H. DRAFFAN,* G. EGLINTON, J. M. HAYES,t J. R. MAXWELL and C. T. PILLINGER School of ...Missing: Colin 1970-1976
  12. [12]
    [PDF] ALHA-81005 AND Y-86032 Monica M. GRADY and Colin T. - CORE
    that the carbon released below 450°C during stepped combustion is due to terrestrial organic contamination. In the Apollo 16 material, a strong case can be ...
  13. [13]
    Professor Colin T. Pillinger - Lifeboat Foundation Bios
    His publications record consists of more than 500 scientific contributions, full papers ... Colin authored Beagle: From Darwin's Epic Voyage to the British ...
  14. [14]
    Space Park to Commemorate the 20th Anniversary of Beagle 2
    Nov 29, 2023 · “In May 1997 Colin Pillinger suggested sending a lander (Beagle 2) to Mars as part of ESA's Mars Express mission launching in 2003. Despite ...Missing: principal | Show results with:principal
  15. [15]
    [PDF] Government support for Beagle 2 - Parliament UK
    Apr 1, 2003 · In total, the costs to public funds of the UK Government's support for the project amounted to some £25 million, over half of the overall ...
  16. [16]
    Time and money crunches doomed Beagle 2 | New Scientist
    May 24, 2004 · The mission eventually cost £50 million, but the funding initially came only in “drips” after work began in 1998, says Barrie Kirk, the ...
  17. [17]
    Beagle 2: The Next Exobiology Mission to Mars
    Beagle 2 is a 60 kg probe (with a 30 kg lander) developed in the United Kingdom for inclusion on the European Space Agency's 2003 Mars Express.Missing: MODULUS | Show results with:MODULUS
  18. [18]
    [PDF] Beagle 2: the Exobiological Lander of Mars Express
    The mass spectrometer on GAP has been designed to measure, quantitatively and isotopically, nanogram quantities of carbon in any form. For a 50-100 mg sample ( ...
  19. [19]
    Scientific objectives of the Beagle 2 lander - ResearchGate
    Aug 6, 2025 · The research work is described in nine chapters of which seven are based on separate published journal papers. ... Recommended publications.
  20. [20]
    ESA - 19 December - European Space Agency
    By February 2004, Beagle 2 had failed to communicate since its first radio contact was missed after it was due to land on Christmas Day. The Beagle 2 Management ...
  21. [21]
    Beagle-2 lander found on Mars - ESA Science & Technology
    Jan 16, 2015 · The UK-led Beagle-2 Mars lander, which hitched a ride on ESA's Mars Express mission and was lost on Mars since 2003, has been found in images taken by a NASA ...Missing: rediscovered | Show results with:rediscovered
  22. [22]
    Novel analysis technique helps solve Beagle 2 mystery | ScienceDaily
    Nov 11, 2016 · The probe was discovered on the Red Planet in November 2014 but uncertainty surrounded what had caused its failure to communicate with Earth.
  23. [23]
    Colin Pillinger showed courage in face of disaster after Beagle 2 ...
    May 8, 2014 · Pillinger cared about science and always insisted that the most important thing about Beagle 2 was the science it could achieve. In the course ...Missing: advocacy cost innovation voyage analogy
  24. [24]
    Spacecraft I have known and loved - Oxford Academic
    Dec 1, 2018 · In 1980, ESA had selected Giotto to go to Halley's Comet, marking the first space mission specifically designed to go to a comet. And I went ...
  25. [25]
    Decay of COSAC and Ptolemy mass spectra at comet 67P ...
    The Rosetta lander Philae successfully landed on the nucleus of comet 67P/Churyumov-Gerasimenko on 12 November 2014. Philae is equipped with two gas analysers: ...
  26. [26]
    On the attempts to measure water (and other volatiles) directly at the ...
    Apr 17, 2017 · In particular, we are indebted to Colin Pillinger FRS (deceased) who was the original principal investigator of the Ptolemy MODULUS project.
  27. [27]
    Colin Pillinger dies after brain haemorrhage - BBC News
    May 8, 2014 · Professor Colin Pillinger, best known for his Beagle-2 Mars mission, has died aged 70 following a brain haemorrhage, his family says.Missing: career positions Bristol Gresham
  28. [28]
    [PDF] Decay of COSAC and Ptolemy Mass Spectra at Comet 67P ... - arXiv
    Feb 1, 2017 · COSAC and Ptolemy on board the Rosetta lander Philae. Each instrument measured seven spectra, one during Philae's hopping about 20 to 30 ...
  29. [29]
    Europe set to put the first man on Mars | Times Higher Education (THE)
    Professor Pillinger was optimistic Esa could return a sample of Martian soil for rigorous testing on Earth. This would enable scientists to look for signs ...
  30. [30]
    Royal Society announces award in commemoration of Professor ...
    Nov 18, 2014 · Professor Pillinger played a leading role in ESA's Rosetta mission, which landed its Philae lander on the surface of the 67P/Churyumov– ...
  31. [31]
    BBC Four - The Sky at Night, Life on Mars
    Patrick Moore talks to Professor Colin Pillinger about the British lander craft Beagle 2, which will be sent to Mars in May to search for signs of life.
  32. [32]
    BBC Audio | Witness History | The Beagle 2 Mission to Mars
    Dec 25, 2015 · The mastermind of the mission, Professor Colin Pillinger, had helped to generate huge public interest in Beagle 2. But the lander failed to ...
  33. [33]
    The Giant Planets - Gresham College
    A lecture on the larger planets of our solar system, given by Colin Pillinger in his role as Gresham Professor of Astronomy. Download Text. PDF Transcript.Missing: exploration | Show results with:exploration
  34. [34]
    What does it take to put a man on Mars? - Gresham College
    Professor Colin Pillinger FRS ... NASA's Martian exploration is geared to putting men on our sister planet by perhaps 2025. Just what does this entail? It is not ...
  35. [35]
    Currently browsing: Items authored or edited by Colin Pillinger
    Currently browsing: Items authored or edited by Colin Pillinger. 97 items in ... PASA: Publications of The Astronomical Society of Australia, 20(4) pp.
  36. [36]
    BBC Interview with Professor Colin Pillinger | AMSAT-UK
    Dec 27, 2011 · On Dec. 27, BBC Radio 4 broadcast an interview with Professor Colin Pillinger about the UK Mars exploration mission Beagle 2 which landed on ...
  37. [37]
    Want more children to study science? Look to Colin Pillinger for ...
    May 8, 2014 · And a third: "Taking students to meet Colin Pillinger in 2007 was the 1st time I witnessed the +ve impact 1 scientist could have on a kid's ...
  38. [38]
    Obituary: Professor Colin Pillinger, planetary scientist - The Scotsman
    May 9, 2014 · He was fascinated by space travel from an early age, eagerly devouring the adventures of Dan Dare in the Eagle comics and listening to the ...
  39. [39]
    September: Colin Pillinger Memorial Talk | News and features
    Sep 21, 2015 · Professor Colin Pillinger CBE FRS, who was born and educated in Kingswood, started his scientific career as part of the University of Bristol ...Missing: childhood early interests
  40. [40]
    Man with a mission | Books | The Guardian
    Nov 10, 2003 · This is an extract taken from Beagle: From Darwin's Epic Voyage to the British Mission to Mars, by Colin Pillinger, published by Faber and Faber ...
  41. [41]
    My Life on Mars – The Beagle 2 Diaries – BIS Shop
    30-day returnsThis autobiographical book by the leader of the Beagle 2 project candidly tells the complete story about the British spacecraft which was sent to Mars in 2003.
  42. [42]
    Aston Medal | BMSS - British Mass Spectrometry Society
    Holders of the Aston Medal. Professor John Beynon Professor Allan Maccoll Brian Green Professor Keith Jennings Professor Dai Games Professor Colin PillingerMissing: FRS CBE Chapman Faraday doctorates
  43. [43]
    Royal Society announces 2011 Copley Medal recipient | Royal Society
    Awards. Michael Faraday Prize and Lecture. Professor Colin Pillinger FRS for his excellent work in science communication. Kohn Award. Dr Chris Lintott for his ...
  44. [44]
    September: Colin Pillinger memorial talk | News and features
    Sep 15, 2017 · Professor Colin Pillinger CBE FRS, who was born and educated in Kingswood, started his scientific career as part of the University of Bristol ...
  45. [45]
    Pillinger Point' Overlooking Endeavour Crater on Mars (False Color)
    Jun 24, 2014 · Pillinger was the British principal investigator for the Beagle 2 project, which attempted to set a lander on Mars a few weeks before ...
  46. [46]
    Mars beauty spot named in honour of Colin Pillinger - BBC News
    Jul 1, 2014 · Pillinger Point lies on the western rim of Endeavour Crater, an impact crater about 22 km in diameter that is formed in rocks from the earliest ...Missing: posthumous asteroid 15614<|separator|>
  47. [47]
    BBC NEWS | UK | Beds/Bucks/Herts | Asteroid named after professor
    Nov 29, 2004 · Asteroid 15614 is named 'Pillinger' after Milton Keynes-based Open University professor Colin Pillinger. Nasa senior scientist Dr Everett Gibson ...
  48. [48]
    Royal Society announces Colin Pillinger memorial award
    Dec 4, 2014 · The Colin Pillinger International Exchanges Award is designed to stimulate international collaboration between leading scientists. Applications ...Missing: Chapman Faraday Aston doctorates
  49. [49]
    ESA - Beagle-2 lander found on Mars - European Space Agency
    Jan 16, 2015 · Professor Colin Pillinger from the Open University led the Beagle-2 project with inspirational enthusiasm; he died in May 2014. Professor George ...
  50. [50]
    Beagle 2 spacecraft found intact on surface of Mars after 11 years
    Jan 16, 2015 · New images show that the UK's Beagle 2 successfully landed on the surface of Mars in 2003 but failed to fully deploy its solar panels.Missing: rediscovered | Show results with:rediscovered
  51. [51]
    From zero to hero - Beagle 2 to Exo Mars - Royal Aeronautical Society
    Jan 22, 2015 · The Beagle 2 project was led by Prof Colin Pillinger from the Open University. Unfortunately Colin Pillinger died in 2014, along with Prof ...
  52. [52]
    Professor Colin Pillinger - Swansea University
    Space Scientist. Mars Explorer. Colin completed his BSc and PhD in Chemistry at Swansea, though he once admitted “he was a disaster of a science student” ...Missing: biography planetary
  53. [53]
    The Beagle 2 Mission: A Chronicle Of Triumph, Tragedy, And ...
    In 2015, the Mars Reconnaissance Orbiter discovered Beagle 2 on the Martian surface, providing valuable insights into the mission's fate. The enduring legacy of ...
  54. [54]
    Beagle 2 mission to Mars | Science Museum
    Feb 3, 2025 · My life on Mars (the Beagle 2 Diaries) by Colin Pillinger, 2010; Beagle: from sailing ship to Mars spacecraft by Colin Pillinger, 2003. Articles ...
  55. [55]
    My Life on Mars: The Beagle 2 Diaries by Colin Pillinger – review
    Dec 17, 2010 · The story of Beagle 2 is so extraordinary that even a bad book about the adventure would be worth reviewing, and this is not a bad book.
  56. [56]
    Science/Nature | Red Planet scientist battles MS - BBC NEWS
    Jul 18, 2005 · Professor Colin Pillinger, from the Open University, said he had been diagnosed with a progressive form of the neurological condition in May.
  57. [57]
    Colin Pillinger, colorful scientist of failed Mars probe, dies at 70
    May 8, 2014 · Colin Pillinger, a colorful British space scientist who sported thick mutton-chop whiskers and became a symbol of national pluck in masterminding a failed ...
  58. [58]
    ESA - Colin Pillinger (1943-2014) - European Space Agency
    May 9, 2014 · British planetary scientist Professor Colin Pillinger, a former ESA principal investigator, passed away on 7 May.Missing: trained | Show results with:trained
  59. [59]
    Obituary: Colin Pillinger (1943 – 2014) - Science Museum Blog
    May 8, 2014 · Pillinger, who was diagnosed with multiple sclerosis in 2005, began his career at Nasa, analysing samples of moon rock on the Apollo programme, ...Missing: biography | Show results with:biography