Fact-checked by Grok 2 weeks ago

Andre Geim


Sir Andre Geim (born 21 October 1958) is a Russian-born British physicist and Regius Professor of physics at the University of Manchester. He co-discovered graphene, a single atomic layer of carbon exhibiting exceptional electronic and mechanical properties, in 2004 with Konstantin Novoselov through a simple mechanical exfoliation technique using adhesive tape. For this breakthrough, Geim and Novoselov shared the 2010 Nobel Prize in Physics, recognizing their groundbreaking experiments on the two-dimensional material. Geim holds the unique distinction of being the only person to win both a Nobel Prize and an Ig Nobel Prize, the latter awarded in 2000 for demonstrating diamagnetic levitation to suspend a live frog in mid-air.

Early Life and Education

Family Background and Childhood

Andre Geim was born on October 21, 1958, in , a small resort town on the coast of the . He was the second son of Nina Bayer, who worked as head of at a local factory, and Konstantin Geim, a chief engineer; both parents were engineers of primarily ethnic descent, with Geim's Soviet passport identifying him as due to his family's Volga heritage. His elder brother, Vladislav, was already living with their parents by the time of Geim's . The family history included some Jewish ancestry through a great-grandmother, though this was not emphasized, and was marked by Stalinist-era repressions, with relatives having endured the and others living abroad. Geim spent his first seven years primarily in Sochi, cared for by his maternal grandparents while his parents worked. His grandmother, Maria Ziegler, a , played a significant role in his early life, fostering a close bond; Geim later described her as his best friend until university years and associated his happiest childhood memories with beach outings and time at her . His grandfather, Nikolai Bayer, a , died when Geim was six years old. At age seven, Geim reluctantly moved to in the to join his parents and brother for schooling, though he returned to for summers. This relocation aligned with his parents' professional commitments in the region, where they continued engineering roles. Geim recalled a generally happy , influenced by his parents' emphasis on perseverance amid the challenges of Soviet life for ethnic Germans.

Formal Education and Early Influences

Geim enrolled at the (Phystech) in 1975 after being rejected from the due to ethnic discrimination policies prevalent in Soviet higher education at the time. He completed a six-year integrated program in physics, graduating in 1981 with a "red diploma," denoting top performance among the top 5–10% of students. During a preparatory in 1975, Geim was tutored by Valery Petrosian of University, who emphasized rigorous problem-solving techniques that shaped his analytical approach to physics. At Phystech, he was influenced by lecturers from the , including Seva Gantmakher and Lev Gorkov, whose advanced seminars on introduced him to cutting-edge theoretical and experimental methods. Geim pursued his from 1984 to 1987 at of Microelectronics Technology in Chernogolovka, near , under the supervision of Petrashov, focusing on the electronic properties of metals through low-temperature experiments that honed his practical skills in and materials characterization. This period marked his transition from theory to hands-on research, amid the constraints of Soviet scientific infrastructure, which prioritized applied problems over fundamental curiosity-driven work.

Academic and Professional Career

Early Research Positions in Europe

In 1990, Geim commenced his research career in with a six-month fellowship at the in the , where he conducted postdoctoral work in the Department of Physics. This marked his departure from Soviet-era constraints in , prompted by limited scientific resources and freedom following his 1987 PhD from the Institute of in Chernogolovka. Subsequently, between 1990 and 1993, Geim held short-term postdoctoral positions at the in the UK and the in , focusing on amid a period of professional mobility across institutions. In 1993, Geim secured his first tenured academic role as an associate professor at in the , advancing to full professor status there. He remained at Nijmegen until 2000, establishing a research group on and , which laid groundwork for later innovations in . During this tenure, he acquired citizenship alongside his one, reflecting his integration into European academia.

Positions at the University of Manchester

In 2001, Andre Geim was appointed professor of physics at the , marking his transition from a tenured position at in the . This role positioned him within the School of Physics and Astronomy, where he focused on experimental . In 2002, Geim became director of the newly established Centre for Mesoscience and Nanotechnology at the university, a position he has held continuously to oversee interdisciplinary research in and . The centre provided facilities for advanced experimentation, including the work leading to isolation in 2004. Geim was named Langworthy Professor of Physics in 2007, an endowed chair recognizing his contributions to the field. He held this title until 2013, during which period he also served as an EPSRC Senior Research Fellow from 2007 to 2010. In 2013, Geim was appointed the inaugural of Physics, a prestigious royal honor conferred by Queen Elizabeth II to mark the university's bicentenary and his Nobel Prize-winning achievements. Concurrently, since 2010, he has been a Research Professor, funded by the Royal Society's Anniversary Research Professorship to support long-term innovative research. These senior roles have enabled Geim to direct efforts at the National Graphene Institute, established in 2015 as part of Manchester's ecosystem. Geim maintains affiliations across physics and departments, emphasizing two-dimensional materials and magneto-transport studies, while mentoring students and postdoctoral researchers.

Key Research Contributions

Diamagnetism and Biomagnetic Levitation Experiments

In the mid-1990s, while working at the High Field Magnet Laboratory of in the , Andre Geim conducted experiments exploring the effects of strong magnetic fields on diamagnetic materials. These investigations began as informal "Friday evening experiments" aimed at understanding magnetism's influence on water and biological scaling, utilizing electromagnets capable of generating fields up to 20 teslas. , a quantum mechanical property where materials weakly repel magnetic fields due to induced opposing currents in their orbits, provided the underlying mechanism; in sufficiently strong and inhomogeneous fields, this repulsion can counteract . Geim's team employed a Bitter magnet producing a central of approximately 16.5 teslas within a 32 mm diameter vertical bore. Initially, they demonstrated of water droplets poured directly into the magnet bore, which formed stable spherical balls suspended against due to the balance between diamagnetic force and weight. Extending this to biological specimens, they achieved stable of a live , as well as grasshoppers and other small organisms, by positioning them near the maximum where the gradient provided necessary stability. The levitated in a of about 16 teslas, illustrating that the high (diamagnetic χ ≈ -9 × 10^{-6}) in living tissues enables such biomagnetic suspension without harm to the subject. Further trials levitated non-biological diamagnetic objects, including flowers, hazelnuts, and a 3 mm plastic sphere, confirming the universality of the effect across materials with negative susceptibilities. Stability in these levitations arises from the magnetic field's spatial variation, where conditions B'(z)^2 + B(z)B''(z) > 0 and B'(z)^2 - 2B(z)B''(z) > 0 allow diamagnets to occupy potential minima, circumventing that prohibits static of perfect diamagnets in uniform fields. These 1997 experiments, detailed in publications such as the European Journal of Physics, highlighted practical diamagnetic levitation's feasibility and sparked interest in microgravity simulations for and .

Discovery and Isolation of Graphene

In late 2003 and early 2004, Andre Geim and his then-postdoctoral researcher at the developed a method to isolate from through mechanical exfoliation, repeatedly cleaving layers using common until obtaining atomically thin sheets. This approach, initially explored in informal "Friday evening experiments" by Geim's group, yielded flakes as thin as a single layer of carbon atoms arranged in a two-dimensional lattice. The isolated was transferred onto substrates with layers for optical identification and electrical measurements, confirming its monolayer nature via and . The breakthrough was reported in the paper "Electric Field Effect in Atomically Thin Carbon Films," published in Science on 22 October 2004, with Novoselov as lead author and Geim as senior author, alongside collaborators S.V. Morozov, D. Jiang, Y. Zhang, S.V. Dubonos, I.V. Grigorieva, and A.A. Firsov. Experiments demonstrated graphene's exceptional electronic properties, including high carrier mobility exceeding 15,000 cm²/V·s at and ambipolar field-effect behavior, where charge carriers could be tuned from electrons to holes by gating. These observations verified graphene's as an isolated two-dimensional material, contradicting theoretical predictions that such structures would be unstable due to at finite temperatures. Prior attempts to produce graphene, such as epitaxial growth on or chemical reduction of graphene oxide, had yielded multilayer or defective films, but the mechanical method provided pristine, single-layer samples essential for probing intrinsic properties. Geim and Novoselov's success relied on graphite's weak interlayer van der Waals bonds, allowing selective peeling without introducing significant defects, though yields were low—requiring examination of thousands of flakes to find monolayers. This isolation enabled direct transport measurements, revealing quantum Hall effects and minimal scattering, hallmarks of in two dimensions. The 2004 publication ignited global research into and related two-dimensional materials, earning Geim and Novoselov the 2010 for "groundbreaking experiments regarding the two-dimensional material ."

Properties, Applications, and Criticisms of Graphene Research

consists of a single layer of carbon atoms arranged in a two-dimensional honeycomb , with a thickness of approximately 0.334 nm, rendering it the thinnest known material. It exhibits exceptional mechanical strength, surpassing that of by over 100 times on a per-weight basis, alongside high tensile strength and flexibility. Thermally, demonstrates up to 10 times that of , while electrically, it features and Dirac-like excitations enabling high at . These properties stem from its zero in pristine form and large surface-to-volume ratio, allowing one gram to cover an area of 2,630 square meters. Additionally, possesses barrier properties and , facilitating interactions in aqueous environments without aggregation issues common to other . Applications of graphene leverage these attributes across multiple sectors, though large-scale adoption remains limited as of 2025. In composites and coatings, it enhances mechanical and thermal management in components, where its strength-to-weight ratio supports lightweight structures with superior heat dissipation. Energy storage benefits from graphene's conductivity in batteries and supercapacitors, improving charge rates and capacity, while thermal films address heat in . In and , it enables flexible wearables, high-frequency devices, and sensors for biochemical detection; water treatment utilizes its filtration membranes for . Biomedical uses include biosensors and due to , and emerging fields like exploit its electrical properties. Market projections indicate growth to USD 986 million by 2032, driven by industrialization in and , yet primarily in niche, value-added products rather than revolutionary "killer apps." Criticisms of graphene research center on the disconnect between laboratory promise and commercial viability, often termed the "hype cycle." Scalability challenges persist, as producing defect-free, high-quality in quantities beyond grams proves costly and technically demanding, hindering integration into mass-produced devices without property degradation. Reproducibility gaps in scalable synthesis methods undermine reliability, with variations in material leading to inconsistent results across studies. The absence of standardized definitions and metrics has resulted in subpar commercial products, stalling broader applications and fueling about overstated potential post-2010 Nobel recognition. While not diminishing fundamental properties, critics note that functions more as an enhancer in existing materials than a standalone disruptor, with economic barriers prioritizing incremental uses over transformative ones. As of 2025, progress in and solution-based production addresses some issues, but full realization demands overcoming these production and standardization hurdles.

Awards and Honors

Ig Nobel Prize for Physics (2000)

In 2000, Andre Geim and Michael Berry received the in Physics for their demonstration of diamagnetic levitation, highlighted by the levitation of a live in a strong . The , awarded annually by the journal , recognize achievements that "first make people laugh, and then make them think." Geim, then at the High Field Magnet Laboratory in , , conducted the experiment in 1997 using a Bitter magnet producing a field gradient of about 16 over a 5 cm bore. The exploited , a of matter whereby materials are weakly repelled by due to induced opposing currents in their orbits. For the frog, composed largely of (a diamagnetic substance), the magnetic force balanced its gravitational weight when positioned in the field where the energy minimum stabilized the object against perturbations, akin to the stability in a toy but for diamagnets. This required field strengths 1,000 to 10,000 times greater than typical fridge magnets, rendering the effect invisible in everyday conditions but dramatically visible in laboratory settings. Geim's Friday evening experiments began with levitating water droplets and progressed to biological samples like frogs, grasshoppers, and hazelnuts, showcasing that diamagnetic levitation could suspend any material without reliance on or . The frog survived unharmed, as the fields induced no significant heating or biological disruption at the exposure duration. Published in works such as "Of Flying Frogs and Levitrons," the research underscored counterintuitive physics, challenging preconceptions that stable demanded exotic conditions. This playful yet rigorous inquiry exemplified Geim's approach to exploring overlooked phenomena, later echoed in his Nobel-winning work.

Nobel Prize in Physics (2010)

The 2010 was awarded jointly to Andre Geim and on October 5, 2010, "for groundbreaking experiments regarding the two-dimensional material ." Geim, born on October 21, 1958, in , , and Novoselov, his former PhD student and collaborator at the , received the prize for their work isolating and characterizing , a single layer of carbon atoms arranged in a . Geim and Novoselov achieved the isolation of in 2004 using a simple mechanical exfoliation technique involving repeated peeling of layers with , yielding pristine single-atom-thick flakes observable under an . This method demonstrated 's unexpected stability at , defying theoretical predictions that two-dimensional crystals would be unstable, and enabled measurements of its exceptional properties, including exceeding 200,000 cm²/V·s, superior thermal conductivity, and mechanical strength 200 times that of at a fraction of the weight. The highlighted graphene's potential to revolutionize , enabling smaller, faster, and more efficient devices, as its massless Dirac fermions behave like relativistic particles, opening avenues for quantum phenomena studies at macroscopic scales. Geim delivered his Nobel Lecture on December 8, 2010, at , titled "Random Walk to Graphene," emphasizing and the scotch-tape method's role in the discovery. The award, shared equally, underscored the collaborative nature of the research conducted at the , where both laureates were affiliated.

Other Notable Awards and Knighthood

Geim received the from the Royal Society in 2010, awarded for his revolutionary and explanation of its remarkable electronic properties. In recognition of his contributions to , Geim was appointed in the United Kingdom's 2012 , with the announcement made on December 31, 2011; the honour was formally conferred by the Prince of Wales on May 4, 2012. To accept this knighthood, which requires allegiance to , Geim acquired British citizenship around 2012, a decision that later resulted in the revocation of his Dutch citizenship in 2025 due to ' dual citizenship restrictions. Geim has also been knighted by the Netherlands for his scientific achievements, receiving honours from both Dutch and British monarchs.

Public Views and Controversies

Perspectives on Scientific Methodology and Failure

Andre Geim promotes a scientific centered on curiosity-driven exploration and , advocating for periodic "Friday afternoon experiments" where researchers pursue unconventional ideas free from immediate application pressures. These sessions, as Geim describes, prevent the monotony of linear career paths—"a railway from your scientific cradle to scientific coffin"—by encouraging diversions into novel directions to sustain long-term engagement in research. His 1997 diamagnetic levitation of a exemplifies this approach, transforming a "ridiculous" notion into a of strong-field applications for everyday diamagnetic materials like , challenging prior perceptions of feeble . Though initially perceived as whimsical, the experiment underscored Geim's strategy of venturing into uncharted areas requiring courage and broad reading, yielding insights beyond initial intent. The 2004 isolation of via mechanical exfoliation with similarly emerged from such playful trials, succeeding on the first attempt after years of failed efforts to stabilize two-dimensional crystals, marking the start of rigorous follow-up rather than an endpoint. Geim frames this as a "random walk" driven by about fundamental limits, like the thinnest possible material, rather than predefined goals. On failure, Geim views it as indispensable, asserting that most experiments fail—often spectacularly—but each imparts lessons, with breakthroughs arising from persistence amid high attrition. He recommends terminating unproductive pursuits after weeks or months to minimize losses, akin to decisions, while emphasizing small, self-organizing teams for agile adaptation. Rejections, including for early graphene-related proposals, he regards as filtering mechanisms preceding validation, reinforcing that innovative demands embracing over safe, incremental progress.

Opinions on Brexit and European Integration

Geim voted to remain in the during the 2016 membership , citing his experiences living and working in multiple European countries and a personal sense of European identity. Despite describing himself as a Euro-skeptic, he expressed dismay at the results announced on June 24, 2016, viewing them as detrimental to scientific collaboration. In June 2016, he joined 12 other Nobel laureates in signing a letter warning that EU exit posed significant risks to British science through disrupted funding and researcher mobility. Geim's concerns centered on the potential loss of research , which supported approximately 15% of grants at the time, and barriers to essential for fields like physics. He criticized the bureaucratic elements of framework programs for , arguing they imposed unnecessary administrative burdens while emphasizing the value of seamless cross-border partnerships for . By August 2019, amid stalled negotiations, Geim advocated for compromise between Leave and Remain factions to enable an orderly exit, stating in an that "with regret, we must leave" to avoid prolonged deadlock harming and the , though he opposed a no-deal scenario as catastrophic. Post-Brexit, following the 's formal departure on January 31, 2020, Geim highlighted the absence of benefits for , including reduced applications from foreign researchers and economic pressures exacerbating funding shortfalls. In October 2022, he described the outlook for UK as "never... so gloomy," warning that fading prospects for full association with the €95.5 billion program (2021–2027) would deter top global talent, as illustrated by a postdoctoral candidate declining a UK position due to perceived instability. Geim viewed continued access to the as a partial mitigation but insufficient to offset broader integration losses in researcher exchanges and collaborative projects. His positions reflect a pragmatic emphasis on empirical impacts to scientific output rather than broader ideological commitments to supranational governance.

Statements on Russian Politics and Identity

Geim has voiced strong reservations about 's political and institutional environment, particularly its impediments to scientific progress. In October 2010, shortly after receiving the , he asserted that possessed "neither the facilities nor the conditions" for conducting high-level research, attributing this to an "unacceptable level of , and ." He explicitly rejected the prospect of returning to work in , stating it would require "." Geim has critiqued the Russian government's modernization initiatives as structurally flawed. In a November 2010 interview, he forecasted that overcoming systemic inefficiencies would demand "several generations," observing that presidential efforts, such as the Skolkovo innovation hub, inevitably grew "muddled in the middle" before resources or reforms could take effect. He linked this stagnation to pervasive likely to "smother innovation," a Soviet-inherited elite mindset, and cultural factors encapsulated in the " psyche," alongside Russia's low global ranking—154th out of 178—on corruption perceptions at the time. His views on Russian leadership evolved from initial defense to open criticism. Geim once served as a "Putin apologist," rationalizing actions like the 2014 annexation of within historical contexts and questioning Western portrayals of . However, the 2018 with Skripal poisoning suspects on state television marked a decisive shift, eroding his trust in the . By April 2021, he proclaimed himself "done apologizing for Putin," decrying the regime's authoritarian tendencies, inherited "Stalinist genes" fostering fear among intellectuals, and the suppression of opposition. He held Putin directly responsible for the fate of , warning that any prison death would represent a "watershed moment" risking widespread chaos reminiscent of historical repressions. Regarding national identity, Geim renounced his Russian citizenship in the 1990s after emigrating to the but maintains he remains "at least half-." Born to ethnic parents in and raised in the , he endured discrimination in , where his surname led others to perceive him as Jewish, prompting anti-Semitic harassment, or as , resulting in slurs like "fascist" or "bloody Jew." This fueled a sense of : "When I lived in I was never called because of my ethnicity." He characterizes his bond with as a "love-hate relationship," feeling "an alien among my own, and on my own among aliens," with acceptance of a identity proving "pretty hard" even in later life due to such experiences and the undervaluation of independent thinking in institutions.

Personal Life

Family and Private Interests

Geim married physicist Irina Grigorieva in 1988, having met her while working at the Institute of in Chernogolovka, near ; the couple later collaborated extensively, including on research, and relocated together to the in 2001, where Grigorieva holds a professorship. They have one daughter, born around 2000. Beyond his professional pursuits, Geim has long maintained interests in outdoor activities, including and white-water canoeing, which he practiced annually for over a month during his youth across various regions of the . He has also engaged in trekking expeditions, such as one in the Jordanian desert. Geim has described scientific research itself as his primary , emphasizing its playful and exploratory over rigid structure, and stating that he derives deep personal satisfaction from it akin to .

Citizenship Changes and National Identity

Andre Geim was born on October 21, 1958, in , SFSR, , holding Soviet citizenship by birth. Following the in 1991, he became a citizen of the . In the early , after emigrating from due to limited career prospects in post-Soviet , Geim renounced his Russian citizenship to acquire nationality while working at Radboud University in , as Dutch law at the time required relinquishing prior citizenship for naturalization. Geim relocated to the in 2000 to join the , where he has since conducted his primary research. In approximately 2012, he obtained citizenship to accept a knighthood in the 2012 , initially holding dual Dutch and nationality. However, provides that acquiring foreign citizenship without prior government permission results in the automatic forfeiture of Dutch citizenship, a rule Geim states he was unaware of at the time. In July 2025, Dutch authorities notified him of this loss and required him to surrender his Dutch passport at the embassy in , leaving him solely a citizen. On , Geim has identified primarily as Dutch-British, reflecting his professional life and residences in those countries since the . Despite renouncing three decades earlier, he has acknowledged a lingering cultural connection, describing himself in a 2021 as "at least half-" by heritage and upbringing, though he emphasized this does not extend to political allegiance. Geim, born to parents of descent, has distanced himself from state narratives, particularly criticizing the Putin regime's and foreign policies, stating he is "done apologizing" for its actions and viewing Russia's trajectory as a of scientific and societal decline. This stance aligns with his broader advocacy for open, merit-based science unhindered by nationalist or ideological constraints.

References

  1. [1]
    Andre Geim – Biographical - NobelPrize.org
    The topic of my Master's project was electronic properties of metals, which I studied by exciting electromagnetic waves (so-called helicons) in spherical ...
  2. [2]
    Professor Sir Andre Geim - Graphene - The University of Manchester
    Uniquely, Sir Andre is the only individual awarded both a Nobel Prize and an Ig Nobel Prize - the latter in 2000 for levitating frogs. He has been knighted in ...Missing: achievements | Show results with:achievements
  3. [3]
    Andre Geim – Facts - NobelPrize.org
    In 2004 Andre Geim and Konstantin Novoselov successfully produced this material, graphene, and mapped its properties: incredibly thin but still incredibly ...
  4. [4]
    The Nobel Prize in Physics 2010 - NobelPrize.org
    The Nobel Prize in Physics 2010 was awarded jointly to Andre Geim and Konstantin Novoselov for groundbreaking experiments regarding the two-dimensional ...
  5. [5]
    Geim becomes first Nobel & Ig Nobel winner - Improbable Research
    Oct 5, 2010 · Congratulations to Andre Geim, new Nobel Prize winner in physics. He becomes the first to win, as an individual, both a Nobel Prize.
  6. [6]
    CV - Sir Andre Geim | Lindau Mediatheque
    Sir Andre Geim, Regius Professor at The University of Manchester, has the unique distinction of having won both the Nobel Prize for his work on graphene.Missing: biography achievements
  7. [7]
    Former Nottingham researcher gets 2010 Nobel Prize in Physics
    Nov 2, 2010 · Professor Geim started his research career in the UK in 1990-1991 when he came to the Department of Physics at the University of Nottingham as a ...
  8. [8]
    Words from the wise: Andre Geim | New Scientist
    Jan 11, 2012 · I believe a turning point was my first visit to the University of Nottingham in 1990. I was 32. Before that I was tinkering on the fringes ...<|control11|><|separator|>
  9. [9]
    This Nobel Prize Winner Has Failed 90% of His Research Projects
    Jul 13, 2024 · A “random” walk across Europe followed. He changed five research positions between 1990 and 1994. There's a rumor among my colleagues that Andre ...
  10. [10]
    Andre Geim - The World Economic Forum
    Andre Geim. Professor and Director ... Formerly with: Institute for Microelectronics Technology, Russia; Nottingham, Bath, Copenhagen universities; Univ.
  11. [11]
    Andre Geim: graphene is only the beginning - CORDIS
    Oct 15, 2013 · He was born ... He also is attached as professor by special appointment in innovative materials and nanoscience at the Radboud University Nijmegen ...Missing: biography | Show results with:biography
  12. [12]
    Sir Andre Geim | Nobel Prize, graphene, magnetism - Britannica
    Oct 17, 2025 · Sir Andre Geim (born October 21, 1958, Sochi, Russia, USSR) is a physicist who was awarded the 2010 Nobel Prize for Physics for his experiments with graphene.
  13. [13]
    Royal honour for School of Physics and Astronomy
    Jan 30, 2013 · The inaugural Regius Professor of Physics at Manchester will be conferred on Professor Andre Geim. As well as being awarded the 2010 Nobel ...
  14. [14]
    (IUCr) A. Geim - nobel prize
    Since 2002 he has been Director of the Centre for Mesoscience and Nanotechnology at the University of Manchester; currently he is the Langworthy and Royal ...
  15. [15]
    Prestigious Royal Society position for pioneering physicist
    May 21, 2009 · Prof Geim, Director of the Manchester Centre for Mesoscience & Nanotechnology, made headlines around the world after discovering a new class of ...
  16. [16]
    Graphene pioneer awarded Royal Society Anniversary Professorship
    Oct 15, 2009 · Prof Andre Geim is Langworthy Professor of Physics at the University of Manchester and is known primarily for the discovery of graphene.
  17. [17]
    University of Manchester scientists win the Nobel Prize for Physics
    Oct 5, 2010 · Prof Geim gained a PhD in 1987 at the Institute of Solid State Physics, Chernogolovka, Russia. He joined The University of Manchester in 2001 ...
  18. [18]
    Andre Geim – Nobel Lecture - NobelPrize.org
    Andre Geim delivered his Nobel Lecture on 8 December 2010, at Aula Magna, Stockholm University. He was introduced by Professor Ingemar Lundström.
  19. [19]
    [PDF] Of flying frogs and levitrons - UMD Physics
    Finally, we describe (section 5) the diamagnetic levitation experiments carried out by Geim et al. The explanation of the stability of the diamagnets is ...
  20. [20]
    The 2010 Nobel Prize in Physics - Press release - NobelPrize.org
    Oct 5, 2010 · Born 1974 in Nizhny Tagil, Russia. Ph.D. 2004 from Radboud University Nijmegen, The Netherlands. Professor and Royal Society Research Fellow, ...
  21. [21]
    Discovery of graphene
    Grapehene was discovered in 2004 by Prof Andre Geim and Prof Kostya Novoselov at The University of Manchester. Learn why the discovery won them the Nobel Prize.
  22. [22]
    [PDF] GRAPHENE - Nobel Prize
    Oct 5, 2010 · The breakthrough was done by Geim,. Novoselov and their co-workers; it was their paper from 2004 which ignited the development. For this they ...
  23. [23]
    Electric Field Effect in Atomically Thin Carbon Films - Science
    Oct 22, 2004 · Graphene is the name given to a single layer of carbon atoms densely packed into a benzene-ring structure, and is widely used to describe ...
  24. [24]
    [PDF] THE RISE OF GRAPHENE A.K. Geim and K.S. Novoselov ... - arXiv
    Without such a 3D base, 2D materials were presumed not to exist until 2004, when the common wisdom was flaunted by the experimental discovery of graphene7 and.
  25. [25]
    Graphene Properties, Synthesis and Applications: A Review - PMC
    Oct 14, 2022 · Graphene is a single atomic layer of carbon atoms arranged in a hexagonal pattern. It has a thickness of only 0.334 nm, making it the world's thinnest material.
  26. [26]
    Twenty years after its discovery, graphene is finally living up to the ...
    Oct 10, 2024 · Graphene's origin was famously humble: Geim and Novoselov's team used ordinary Scotch tape to peel thin fragments from a chunk of graphite. They ...
  27. [27]
    Structure of graphene and its disorders: a review - PMC - NIH
    An ideal graphene with highly ordered structures exhibits zero band gap [6], high tensile strength [14] and high thermal conductivity [15] at room temperature.
  28. [28]
    Andre Geim: in praise of graphene - Nature
    Oct 7, 2010 · It's the thinnest possible material you can imagine. It also has the largest surface-to-weight ratio: with one gram of graphene you can cover ...
  29. [29]
    Graphene: what are its properties and applications? - Carbon Waters
    Graphene is the world's lightest known material, with remarkable mechanical strength, high thermal and electrical conductivity and even barrier properties.
  30. [30]
    Graphene's Frontier in aerospace: current applications, challenges ...
    May 15, 2025 · Graphene is suitable for aerospace and space engineering because its single carbon layer exhibits excellent mechanical, electrical and thermal characteristics.
  31. [31]
    Graphene Market: An Outlook for the Coming Decade - IDTechEx
    Sep 11, 2025 · The applications for graphene are vast, but the most promising sectors today include composites, energy storage, thermal management, coatings, ...
  32. [32]
    Graphene: Two decades of revolutionizing material science
    Mar 19, 2024 · Andre Geim and Konstantin Novoselov (Figure 1) at the University of Manchester isolated graphene using a simple method known as “mechanical ...<|separator|>
  33. [33]
    Graphene Market Trends, Size, Share and Forecast, 2025-2032
    Aug 20, 2025 · Graphene Market size is estimated to be valued at USD 279.9 Mn in 2025 and is expected to expand at a CAGR of 19.7%, reaching USD 986 Mn by ...
  34. [34]
    Graphene - what happened after the hype? - RISE
    Oct 28, 2024 · One major hurdle is the difficulty and expense of producing high-quality graphene on a commercial scale. Although small quantities can be made ...
  35. [35]
    Research on scalable graphene faces a reproducibility gap - PMC
    Feb 28, 2023 · Here, the author discusses the reproducibility issues in the field and proposes possible solutions to improve the reliability of published results.
  36. [36]
    Graphene: You Don't Get What You Pay For - Science
    Oct 11, 2018 · The lack of standards for graphene has been stalling the development of graphene applications due to the bad quality of the material sold in the ...
  37. [37]
    Graphene: the hype versus commercial reality - ResearchGate
    Graphene is being used commercially in large quantities in ways that are grounded in market realities, far from the much hyped 'killer applications'.Missing: criticisms | Show results with:criticisms
  38. [38]
    How did you get that frog to float? - Harvard Gazette
    a tongue-in-cheek, annual ...
  39. [39]
    Secret of Scientific Creativity revealed by Andre Geim
    May 28, 2015 · Born in Sochi and raised in Soviet-era Russia, Geim does not pinpoint his success to being inspired by a particular teacher or childhood ...Missing: autobiography | Show results with:autobiography
  40. [40]
    In 1997, Scientists Made A Frog Levitate | IFLScience
    Mar 22, 2022 · A levitating frog scooped an Ig Nobel award back in the year 2000 in celebration of a group of scientists, led by Dr Andre Geim, who ...
  41. [41]
    [PDF] Andre K. Geim - Nobel Lecture
    Still, the research opportunities in Nijmegen were much better than in ... It took little time to realise that the physics behind was good old diamagnetism.
  42. [42]
    The Nobel Prize in Physics 2010 - Illustrated information
    Andre Geim and Konstantin Novoselov used a piece of graphene no thicker than the diameter of a hair in order to investigate the miraculous traits of graphene.
  43. [43]
    Professors honoured by Royal Society for excellence in science
    Jun 9, 2010 · The Royal Society awarded Professor Andre Geim the Hughes Medal for his revolutionary discovery of graphene, and explanation of its remarkable ...
  44. [44]
    Knighthoods for Nobel-winning graphene pioneers - BBC News
    Dec 31, 2011 · ... knighthoods in the New Year Honours. Profs Andre Geim and Konstantin Novoselov, from the University of Manchester, won the physics Nobel ...
  45. [45]
    University graphene pioneers are knighted
    Jan 3, 2012 · Professors Andre Geim and Kostya Novoselov, who demonstrated the remarkable properties of wonder material graphene, have been knighted in the New Year Honours ...Missing: Sir | Show results with:Sir
  46. [46]
    https://m.huffingtonpost.co.uk/2012/05/04/sir-andre-geim-graphene-d_n_1476654.html
  47. [47]
    Nobel Prize-Winning Physicist Is Stripped of Dutch Citizenship
    Jul 5, 2025 · Geim was born in 1958 in Russia to parents of German descent. He adopted Dutch citizenship in the 1990s while at Radboud University in Nijmegen ...
  48. [48]
    Nobel Prize winner Andre Geim forced to give up his Dutch nationality
    Jul 3, 2025 · When Nobel Prize winner Andre Geim accepted his British knighthood years ago, he probably didn't expect it would cost him his Dutch citizenship.Missing: date | Show results with:date<|separator|>
  49. [49]
    Sir Andre Geim - Event information - NobelPrize.org
    Geim was born in Russia to German parents and holds dual Dutch and British citizenship. He started his academic career in Moscow, spent several years as a ...Missing: origin | Show results with:origin
  50. [50]
    Prof. Sir Andre Geim - International Peace Foundation
    Sir Andre Geim. 2010 Nobel Laureate for Physics at the School of ... Nobel and Ig Nobel Prizes. Sir Andre was knighted twice, by Dutch and British monarchs.<|separator|>
  51. [51]
    Transcript from an interview with the 2010 physics laureates
    Interview with 2010 Nobel Laureate in Physics, Andre Geim and Konstantin Novoselov, 6 December 2010. The interviewer is Adam Smith, Editorial Director of Nobel ...Missing: autobiography childhood
  52. [52]
    Nobel Laureate Andre Geim Predicts Rise of Graphite Materials Post ...
    Sep 15, 2024 · There were many pains and failures before achieving this mission. Failure is bound to happen; we need to learn from our mistakes. One of the ...<|separator|>
  53. [53]
    Graphene inventor Andre Geim: No-deal Brexit would destroy UK ...
    Aug 13, 2019 · I voted remain in the 2016 Brexit referendum because I have lived and worked in many European countries and simply feel European. As a scientist ...
  54. [54]
    Brexit Is Quietly Strangling Science - Bloomberg.com
    Aug 7, 2017 · Geim describes himself as a Euro-skeptic. Yet he watched the results of Brexit trickle in with a sense of gathering dismay (“At about 4 a.m. it ...
  55. [55]
    Nobel prize winners warn leaving EU poses 'risk' to science - BBC
    Jun 11, 2016 · Leaving the EU poses a key risk to British science, a group of 13 Nobel prize-winning scientists have warned.
  56. [56]
    With regret, we must leave - ScienceDirect.com
    Aug 24, 2019 · For the sake of science and the country, the UK's warring Brexit sides must compromise – even if it means leaving the EU, says Andre Geim.
  57. [57]
    So long, and thanks for all the research: UK is out, but what does the ...
    Jan 30, 2020 · On Brexit Eve, Science|Business asks scientists around Europe to share their thoughts ... Andre Geim “There is no upside for science after Brexit.
  58. [58]
    'Things will only get worse': fears top scientists may shun UK over ...
    Oct 8, 2022 · British-based Nobel prize winner says hopes for securing an alliance with the crucial Horizon Europe collaboration are fading fast.
  59. [59]
    UK physicists begin life outside the EU – but remain in Horizon Europe
    Jan 25, 2021 · Despite Geim's disapproval over Brexit, he does see one main advantage in the deal – staying in the European Research Council (ERC). Indeed, ...
  60. [60]
    Nobel Winners Tell Why Russia Lacks Allure - The Moscow Times
    Oct 20, 2010 · Russia has “neither the facilities nor the conditions,” Geim said, adding that there was an unacceptable “level of bureaucracy, corruption and ...
  61. [61]
    Nobel winner sees generations before Russia modernizes | Reuters
    "The government is trying to improve, but in the end everything gets muddled in the middle before money or the best efforts are even reached," said Geim, who ...
  62. [62]
    Done apologizing for Putin Nobel laureate Andre Geim describes ...
    Apr 19, 2021 · Andre Geim says he doesn't like getting political. “Life has taught me that I always lose whenever I vote for someone or participate in a ...
  63. [63]
    Sir Andre Geim interview: Father of graphene – 'I'm an alien among ...
    Nov 10, 2014 · Geim was marked out as clever early on in life during his time spent with his grandmother, a meteorologist, in Sochi, a town on the Black Sea.Missing: childhood | Show results with:childhood
  64. [64]
    ‘I’m an alien among my own, and on my own among aliens’ says 'father of graphene'
    ### Summary of Andre Geim's Family, Wife, Children, Personal Background, Hobbies, and Private Interests
  65. [65]
    Andre Geim – Interview - NobelPrize.org
    Oct 5, 2010 · Interview with the 2010 Nobel Laureates in Physics Andre Geim and Konstantin Novoselov, 6 December 2010. The interviewer is Adam Smith, Editorial Director of ...
  66. [66]
    Nobel prize winner Andre Geim falls foul of NL nationality rules
    Jul 2, 2025 · Dutch-British scientist and Nobel prize winner Andre Geim has lost his Dutch nationality, after falling foul of a law that strips Dutch citizenship.
  67. [67]
    Nobel Prize winner Andre Geim loses Dutch nationality - Delta
    Jul 3, 2025 · Andre Geim, who was born in Russia, worked for many years at Radboud University and was celebrated in 2010 as the Dutch Nobel laureate. ...
  68. [68]
    Netherlands down a Nobel Prize as winner loses his Dutch nationality
    Jul 2, 2025 · Andre Geim, a Dutch ... The official reason is that I became British about twelve years ago because I was given a British knighthood, for which ...