Lit (Polish Wikipedia)
Analysis of information sources in references of the Wikipedia article "Lit" in Polish language version.
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airliquide.com
encyclopedia.airliquide.com
- Nitrogen, N2, Physical properties, safety, MSDS, enthalpy, material compatibility, gas liquid equilibrium, density, viscosity, inflammability, transport properties. Encyclopedia.airliquide.com. [dostęp 2010-09-29].
archive.is
- Sonzogni, Alejandro: Interactive Chart of Nuclides. National Nuclear Data Center: Brookhaven National Laboratory. [dostęp 2008-06-06].
- SQM Announces New Lithium Prices – SANTIAGO, Chile, Sept. 30 /PRNewswire-FirstCall/. Prnewswire.com, 2009-09-30. [dostęp 2013-05-01].
- Patel, P. (2011-11-16) Startup to Capture Lithium from Geothermal Plants. technologyreview.com.
arxiv.org
M. Asplund, David L. Lambert, Poul Erik Nissen, Francesca Primas i inni. Lithium Isotopic Abundances in Metal-poor Halo Stars. „The Astrophysical Journal”. 644, s. 229, 2006. DOI: 10.1086/503538. arXiv:astro-ph/0510636. Bibcode: 2006ApJ...644..229A.- P.A. Denissenkov, A. Weiss. Episodic lithium production by extra-mixing in red giants. „Astronomy and Astrophysics”. 358, s. L49–L52, 2000. arXiv:astro-ph/0005356. Bibcode: 2000A&A...358L..49D.
books.google.com
- Robert E. Krebs: The history and use of our earth’s chemical elements: a reference guide. Greenwood Publishing Group, 2006, s. 47. ISBN 0-313-33438-2.
- Geochemistry international, wyd. 1–4, t. 31, Institute, American Geological; Union, American Geophysical; Society, Geochemical, 1994, s. 115.
- Sapse, Anne-Marie and von R. Schleyer, Paul: Lithium chemistry: a theoretical and experimental overview. Wiley-IEEE, 1995, s. 3–40. ISBN 0-471-54930-4. (ang.).
- Mary Weeks: Discovery of the Elements. Whitefish, Montana: Kessinger Publishing, 2003, s. 124. ISBN 0-7661-3872-0. [dostęp 2009-08-10].
- William Thomas Brande, William James MacNeven: A manual of chemistry. 1821, s. 191. [dostęp 2010-10-08].
- Lithium. W: Jessica Elzea Kogel: Industrial minerals & rocks: commodities, markets, and uses. Littleton, Colo.: Society for Mining, Metallurgy, and Exploration, 2006, s. 599. ISBN 978-0-87335-233-8.
- McKetta, John J.: Encyclopedia of Chemical Processing and Design: Volume 28 – Lactic Acid to Magnesium Supply-Demand Relationships. M. Dekker, 18 July 2007. ISBN 978-0-8247-2478-8. [dostęp 2010-09-29].
- Totten, George E.; Westbrook, Steven R. and Shah, Rajesh J.: Fuels and lubricants handbook: technology, properties, performance, and testing, Volume 1. ASTM International, 2003, s. 559. ISBN 0-8031-2096-6.
- Rand, Salvatore J.: Significance of tests for petroleum products. ASTM International, 2003, s. 150–152. ISBN 0-8031-2097-4.
- Hobbs, Philip C.D.: Building Electro-Optical Systems: Making It All Work. John Wiley and Sons, 2009, s. 149. ISBN 0-470-40229-6.
- Point Defects in Lithium Fluoride Films Induced by Gamma Irradiation. T. 2001. World Scientific, 2002, s. 819, seria: Proceedings of the 7th International Conference on Advanced Technology & Particle Physics: (ICATPP-7): Villa Olmo, Como, Italy. ISBN 981-238-180-5.
- Davis, Joseph R. ASM International. Handbook Committee: Aluminum and aluminum alloys. ASM International, 1993, s. 121–. ISBN 978-0-87170-496-2. [dostęp 2011-05-16].
- Egon Wiberg, Inorganic chemistry, Nils Wiberg, Arnold Frederick Holleman, wyd. 1st English ed., San Diego: Academic Press, 2001, s. 1089, ISBN 0-12-352651-5, OCLC 48056955.
- Bansal, Raj K.: Synthetic approaches in organic chemistry. 1996, s. 192. ISBN 0-7637-0665-5.
- Stone, F.G.A.; West, Robert: Advances in organometallic chemistry. Academic Press, 1980, s. 55. ISBN 0-12-031118-6.
- Makhijani, Arjun and Yih, Katherine: Nuclear Wastelands: A Global Guide to Nuclear Weapons Production and Its Health and Environmental Effects. MIT Press, 2000, s. 59–60. ISBN 0-262-63204-7.
- National Research Council (U.S.). Committee on Separations Technology and Transmutation Systems: Nuclear wastes: technologies for separations and transmutation. National Academies Press, 1996, s. 278. ISBN 0-309-05226-2.
- Barnaby, Frank: How nuclear weapons spread: nuclear-weapon proliferation in the 1990s. Routledge, 1993, s. 39. ISBN 0-415-07674-9.
- Agarwal, Arun: Nobel Prize Winners in Physics. APH Publishing, 2008, s. 139. ISBN 81-7648-743-0.
- Furr, A.K.: CRC handbook of laboratory safety. Boca Raton: CRC Press, 2000, s. 244–246. ISBN 978-0-8493-2523-6.
- Samuel C. Levy and Per Bro.: Battery hazards and accident prevention. New York: Plenum Press, 1994, s. 15–16. ISBN 978-0-306-44758-7.
businessinsider.com
- Money Game Contributors: New Wyoming Lithium Deposit. Business Insider, 2013-04-26. [dostęp 2013-05-01].
cam.ac.uk
www-outreach.phy.cam.ac.uk
- ‘Splitting the Atom’: Cockcroft and Walton, 1932: 9. Rays or Particles?. www-outreach.phy.cam.ac.uk. [zarchiwizowane z tego adresu (2012-09-02)]., in April, 1932. Retrieved 14 June 2011.
chemguide.co.uk
- Jim Clark: Compounds of the Group 1 Elements. 2005. [dostęp 2009-08-10].
diracdelta.co.uk
- Timeline science and engineering. DiracDelta Science & Engineering Encyclopedia. [dostęp 2008-09-18]. [zarchiwizowane z tego adresu (2018-10-12)].
doi.org
doi.org
- Katharina Lodders. Solar System Abundances and Condensation Temperatures of the Elements. „The Astrophysical Journal”. 591 (2), s. 1220–1247, 2003. DOI: 10.1086/375492. Wykres: Plik:SolarSystemAbundances.jpg.
- Tuoriniemi, J.; Juntunen-Nurmilaukas, K.; Uusvuori, J.; Pentti, E.; Salmela, A.; Sebedash, A. Superconductivity in lithium below 0.4 milikelvin at ambient pressure. „Nature”. 447 (7141), s. 187–189, 2007. DOI: 10.1038/nature05820. PMID: 17495921. Bibcode: 2007Natur.447..187T.
- Struzhkin, V.V.; Eremets, M.I.; Gan, W; Mao, H.K.; Hemley, R. J. Superconductivity in dense lithium. „Science”. 298 (5596), s. 1213–1215, 2002. DOI: 10.1126/science.1078535. PMID: 12386338. Bibcode: 2002Sci...298.1213S.
- A.W. Overhauser. Crystal Structure of Lithium at 4.2 K. „Physical Review Letters”. 53, s. 64–65, 1984. DOI: 10.1103/PhysRevLett.53.64. Bibcode: 1984PhRvL..53...64O.
- Ulrich Schwarz. Metallic high-pressure modifications of main group elements. „Zeitschrift für Kristallographie”. 219 (6), s. 376, 2004. DOI: 10.1524/zkri.219.6.376.34637.
- Lithium and lithium compounds. W: Conrad W. Kamienski, McDonald, Daniel P.; Stark, Marshall W.; Papcun, John R.: Kirk-Othmer Encyclopedia of Chemical Technology. John Wiley & Sons, Inc., 2004. DOI: 10.1002/0471238961.1209200811011309.a01.pub2.
- On chemical analysis by spectrum-observations. „Quarterly Journal of the Chemical Society of Londyn”. 13 (3), s. 270, 1861. DOI: 10.1039/QJ8611300270.
- M. Asplund, David L. Lambert, Poul Erik Nissen, Francesca Primas i inni. Lithium Isotopic Abundances in Metal-poor Halo Stars. „The Astrophysical Journal”. 644, s. 229, 2006. DOI: 10.1086/503538. arXiv:astro-ph/0510636. Bibcode: 2006ApJ...644..229A.
- M. Chaussidon, F. Robert, K.D. McKeegan. Li and B isotopic variations in an Allende CAI: Evidence for the in situ decay of short-lived 10Be and for the possible presence of the short–lived nuclide 7Be in the early solar system. „Geochimica et Cosmochimica Acta”. 70 (1), s. 224–245, 2006. DOI: 10.1016/j.gca.2005.08.016. Bibcode: 2006GeCoA..70..224C.
- H.M. Seitz, G.P. Brey, Y. Lahaye, S. Durali i inni. Lithium isotopic signatures of peridotite xenoliths and isotopic fractionation at high temperature between olivine and pyroxenes. „Chemical Geology”. 212 (1–2), s. 163–177, 2004. DOI: 10.1016/j.chemgeo.2004.08.009.
- A.M. Boesgaard, G. Steigman. Big bang nucleosynthesis – Theories and observations. „IN: Annual review of astronomy and astrophysics. Volume 23 (A86-14507 04–90). Palo Alto”. 23, s. 319, 1985. DOI: 10.1146/annurev.aa.23.090185.001535. Bibcode: 1985ARA&A..23..319B.
- GN Schrauzer. Lithium: Occurrence, dietary intakes, nutritional essentiality. „Journal of the American College of Nutrition”. 21 (1), s. 14–21, 2002. DOI: 10.1080/07315724.2002.10719188. PMID: 11838882.
- Hirochika Ohgami, Takeshi Terao, Ippei Shiotsuki, Nobuyoshi Ishii i inni. Lithium levels in drinking water and risk of suicide. „The British Journal of Psychiatry”. 194 strony = 464–5, 2009. DOI: 10.1192/bjp.bp.108.055798.
- JüRgen Deberitz, Gernot Boche. Lithium und seine Verbindungen – Industrielle, medizinische und wissenschaftliche Bedeutung. „Chemie in unserer Zeit”. 37 (4), s. 258, 2003. DOI: 10.1002/ciuz.200300264.
- Richard Bauer. Lithium – wie es nicht im Lehrbuch steht. „Chemie in unserer Zeit”. 19 (5), s. 167, 1985. DOI: 10.1002/ciuz.19850190505.
- Ernst-Christian, K. Special Materials in Pyrotechnics: III. Application of Lithium and its Compounds in Energetic Systems. „Propellants, Explosives, Pyrotechnics”. 29 (2), s. 67–80, 2004. DOI: 10.1002/prep.200400032.
- Air Quality Systems for Related Enclosed Spaces: Spacecraft Air. W: Mulloth, L.M. and Finn, J.E.: The Handbook of Environmental Chemistry. T. 4H. 2005, s. 383–404. DOI: 10.1007/b107253.
- William M. Sinton. Infrared Spectroscopy of Planets and Stars. „Applied Optics”. 1 (2), s. 105, 1962. DOI: 10.1364/AO.1.000105. Bibcode: 1962ApOpt...1..105S.
- Hughes, T.G.; Smith, R.B. and Kiely, D.H. Stored Chemical Energy Propulsion System for Underwater Applications. „Journal of Energy”. 7 (2), s. 128–133, 1983. DOI: 10.2514/3.62644.
- Yurkovetskii, A.V., V.L. Kofman, K.L. Makovetskii. Polymerization of 1,2-dimethylenecyclobutane by organolithium initiators. „Russian Chemical Bulletin”. 37 (9), s. 1782–1784, 2005. DOI: 10.1007/BF00962487.
- Quirk, Roderic P, Pao Luo Cheng. Functionalization of polymeric organolithium compounds. Amination of poly(styryl)lithium. „Macromolecules”. 19 (5), s. 1291, 1986. DOI: 10.1021/ma00159a001. Bibcode: 1986MaMol..19.1291Q.
- C Baesjr. The chemistry and thermodynamics of molten salt reactor fuels. „Journal of Nuclear Materials”. 51, s. 149, 1974. DOI: 10.1016/0022-3115(74)90124-X. Bibcode: 1974JNuM...51..149B.
dx.doi.org
- Thomas Prohaska i inni, Standard atomic weights of the elements 2021 (IUPAC Technical Report), „Pure and Applied Chemistry”, 94 (5), 2021, s. 573–600, DOI: 10.1515/pac-2019-0603 (ang.).
- Kim Zarse i inni, Low-dose lithium uptake promotes longevity in humans and metazoans, „European Journal of Nutrition”, 50 (5), 2011, s. 387–389, DOI: 10.1007/s00394-011-0171-x, PMID: 21301855, PMCID: PMC3151375.
dtic.mil
- Application of lithium chemicals for air regeneration of manned spacecraft. Lithium Corporation of America & Aeropspace Medical Research Laboratories, 1965. [dostęp 2017-02-22]. [zarchiwizowane z tego adresu (2012-10-07)].
echeat.com
- Thomas Green: Analysis of the Element Lithium. echeat, 11 June 2006.
enclabs.com
- Some Facts about Lithium. ENC Labs. [dostęp 2010-10-15].
engineeringtoolbox.com
- Coefficients of Linear Expansion. Engineering Toolbox.
europa.eu
echa.europa.eu
- lithium, [w:] Classification and Labelling Inventory, Europejska Agencja Chemikaliów [dostęp 2015-04-10] (ang.).
fas.org
- Nuclear Weapon Design. fas.org. [zarchiwizowane z tego adresu (2016-08-28)]. Federation of American Scientists (1998-10-21). fas.org.
google.de
books.google.de
- Donald E Garrett: Handbook of Lithium and Natural Calcium Chloride. s. 99. ISBN 978-0-08-047290-4. [dostęp 2004-04-05].
google.pl
books.google.pl
- The Quarterly journal of science and the arts. „The Quarterly Journal of Science and the Arts”. 5, s. 338, 1818. Royal Institution of Great Britain. [dostęp 2010-10-05].
- Jung-Ki Park: Principles and Applications of Lithium Secondary Batteries. John Wiley & Sons, 2012, s. 91. ISBN 978-3-527-65043-9.
greencarcongress.com
- University of Michigan and Ford researchers see plentiful lithium resources for electric vehicles. Green Car Congress, 2011-08-03. [dostęp 2011-08-11].
harvard.edu
adsabs.harvard.edu
- Tuoriniemi, J.; Juntunen-Nurmilaukas, K.; Uusvuori, J.; Pentti, E.; Salmela, A.; Sebedash, A. Superconductivity in lithium below 0.4 milikelvin at ambient pressure. „Nature”. 447 (7141), s. 187–189, 2007. DOI: 10.1038/nature05820. PMID: 17495921. Bibcode: 2007Natur.447..187T.
- Struzhkin, V.V.; Eremets, M.I.; Gan, W; Mao, H.K.; Hemley, R. J. Superconductivity in dense lithium. „Science”. 298 (5596), s. 1213–1215, 2002. DOI: 10.1126/science.1078535. PMID: 12386338. Bibcode: 2002Sci...298.1213S.
- A.W. Overhauser. Crystal Structure of Lithium at 4.2 K. „Physical Review Letters”. 53, s. 64–65, 1984. DOI: 10.1103/PhysRevLett.53.64. Bibcode: 1984PhRvL..53...64O.
- M. Asplund, David L. Lambert, Poul Erik Nissen, Francesca Primas i inni. Lithium Isotopic Abundances in Metal-poor Halo Stars. „The Astrophysical Journal”. 644, s. 229, 2006. DOI: 10.1086/503538. arXiv:astro-ph/0510636. Bibcode: 2006ApJ...644..229A.
- M. Chaussidon, F. Robert, K.D. McKeegan. Li and B isotopic variations in an Allende CAI: Evidence for the in situ decay of short-lived 10Be and for the possible presence of the short–lived nuclide 7Be in the early solar system. „Geochimica et Cosmochimica Acta”. 70 (1), s. 224–245, 2006. DOI: 10.1016/j.gca.2005.08.016. Bibcode: 2006GeCoA..70..224C.
- P.A. Denissenkov, A. Weiss. Episodic lithium production by extra-mixing in red giants. „Astronomy and Astrophysics”. 358, s. L49–L52, 2000. arXiv:astro-ph/0005356. Bibcode: 2000A&A...358L..49D.
- A.M. Boesgaard, G. Steigman. Big bang nucleosynthesis – Theories and observations. „IN: Annual review of astronomy and astrophysics. Volume 23 (A86-14507 04–90). Palo Alto”. 23, s. 319, 1985. DOI: 10.1146/annurev.aa.23.090185.001535. Bibcode: 1985ARA&A..23..319B.
- William M. Sinton. Infrared Spectroscopy of Planets and Stars. „Applied Optics”. 1 (2), s. 105, 1962. DOI: 10.1364/AO.1.000105. Bibcode: 1962ApOpt...1..105S.
- Quirk, Roderic P, Pao Luo Cheng. Functionalization of polymeric organolithium compounds. Amination of poly(styryl)lithium. „Macromolecules”. 19 (5), s. 1291, 1986. DOI: 10.1021/ma00159a001. Bibcode: 1986MaMol..19.1291Q.
- C Baesjr. The chemistry and thermodynamics of molten salt reactor fuels. „Journal of Nuclear Materials”. 51, s. 149, 1974. DOI: 10.1016/0022-3115(74)90124-X. Bibcode: 1974JNuM...51..149B.
illinoisattorneygeneral.gov
- Illinois Attorney General – Basic Understanding Of Meth. Illinoisattorneygeneral.gov. [dostęp 2010-10-06]. [zarchiwizowane z tego adresu (2010-09-10)].
lbl.gov
ie.lbl.gov
- Isotopes of Lithium. Berkeley National Laboratory, The Isotopes Project. [dostęp 2008-04-21]. [zarchiwizowane z tego adresu (2008-05-13)].
lithiumalliance.org
- Clarke, G.M. and Harben, P.W., „Lithium Availability Wall Map”. Published June 2009. Referenced at International Lithium Alliance.
meridian-int-res.com
- Handbook of Lithium and Natural Calcium, Donald Garrett, Academic Press, 2004, cited in The Trouble with Lithium 2.
- Front Matter. [dostęp 2010-09-29].
mindat.org
- Petalite Mineral Information. [dostęp 2009-08-10].
ncjolt.org
- Aaron R. Harmon. Methamphetamine remediation research act of 2005: Just what the doctor ordered for cleaning up methfields–or sugar pill placebo?. „North Carolina Journal of Law & Technology”. 7, 2006. [zarchiwizowane z adresu 2013-05-09].
nih.gov
ncbi.nlm.nih.gov
- Tuoriniemi, J.; Juntunen-Nurmilaukas, K.; Uusvuori, J.; Pentti, E.; Salmela, A.; Sebedash, A. Superconductivity in lithium below 0.4 milikelvin at ambient pressure. „Nature”. 447 (7141), s. 187–189, 2007. DOI: 10.1038/nature05820. PMID: 17495921. Bibcode: 2007Natur.447..187T.
- Struzhkin, V.V.; Eremets, M.I.; Gan, W; Mao, H.K.; Hemley, R. J. Superconductivity in dense lithium. „Science”. 298 (5596), s. 1213–1215, 2002. DOI: 10.1126/science.1078535. PMID: 12386338. Bibcode: 2002Sci...298.1213S.
- C. Chassard-Bouchaud, P. Galle, F. Escaig, M. Miyawaki. Bioaccumulation of lithium by marine organisms in European, American, and Asian coastal zones: microanalytic study using secondary ion emission. „Comptes rendus de l’Academie des sciences. Serie III, Sciences de la vie”. 299 (18), s. 719–724, 1984. PMID: 6440674.
- GN Schrauzer. Lithium: Occurrence, dietary intakes, nutritional essentiality. „Journal of the American College of Nutrition”. 21 (1), s. 14–21, 2002. DOI: 10.1080/07315724.2002.10719188. PMID: 11838882.
- Kim Zarse i inni, Low-dose lithium uptake promotes longevity in humans and metazoans, „European Journal of Nutrition”, 50 (5), 2011, s. 387–389, DOI: 10.1007/s00394-011-0171-x, PMID: 21301855, PMCID: PMC3151375.
- Yacobi S, Ornoy A. Is lithium a real teratogen? What can we conclude from the prospective versus retrospective studies? A review. „Isr J Psychiatry Relat Sci”. 45 (2), s. 95–106, 2008. PMID: 18982835.
pubchem.ncbi.nlm.nih.gov
- Lithium, [w:] PubChem [online], United States National Library of Medicine, CID: 3028194 (ang.).
nytimes.com
- James Risen: U.S. Identifies Vast Riches of Minerals in Afghanistan. [w:] The New York Times [on-line]. 13 June 2010. [dostęp 2010-06-13].
- Simon Romero: In Bolivia, a Tight Grip on the Next Big Resource. [w:] New York Times [on-line]. 2 February 2009.
- Wald, M. (2011-09-28) Start-Up in California Plans to Capture Lithium, and Market Share. The New York Times.
pwn.pl
encyklopedia.pwn.pl
- Lit, [w:] Encyklopedia PWN [online], Wydawnictwo Naukowe PWN [dostęp 2021-09-30].
rcpsych.org
bjp.rcpsych.org
- Hirochika Ohgami, Takeshi Terao, Ippei Shiotsuki, Nobuyoshi Ishii i inni. Lithium levels in drinking water and risk of suicide. „The British Journal of Psychiatry”. 194 strony = 464–5, 2009. DOI: 10.1192/bjp.bp.108.055798.
saga-u.ac.jp
ioes.saga-u.ac.jp
- Lithium occurrence. Institute of Ocean Energy, Saga University, Japan. [dostęp 2013-07-12]. [zarchiwizowane z tego adresu (2012-03-04)].
sigmaaldrich.com
- Lithium (nr 444456) (ang.) – karta charakterystyki produktu Sigma-Aldrich (Merck) na obszar Stanów Zjednoczonych. [dostęp 2011-09-30]. (przeczytaj, jeśli nie wyświetla się prawidłowa wersja karty charakterystyki)
- Lit (nr 444456) – karta charakterystyki produktu Sigma-Aldrich (Merck) na obszar Polski. [dostęp 2011-09-30]. (przeczytaj, jeśli nie wyświetla się prawidłowa wersja karty charakterystyki)
springerlink.com
- Extraction of metals from sea water. Springer Berlin Heidelberg, 1984. [dostęp 2013-07-12]. [zarchiwizowane z tego adresu (2020-04-07)].
stsci.edu
www-int.stsci.edu
- Neil Reid, L Dwarf Classification [online], 10 marca 2002 [dostęp 2013-03-06] [zarchiwizowane z adresu 2013-05-21].
timesonline.co.uk
business.timesonline.co.uk
- Jeremy Page, Michael Evans. Taleban zones mineral riches may rival Saudi Arabia says Pentagon. „The Times”, 15 June 2010. Londyn.
tsa.gov
- TSA: Safe Travel with Batteries and Devices. Tsa.gov, 1 stycznia 2008. [dostęp 2013-07-12]. [zarchiwizowane z tego adresu (2012-09-27)].
universetoday.com
- Fraser Cain: Why Old Stars Seem to Lack Lithium. 16 Aug 2006.
- Fraser Cain: Brown Dwarf. Universe Today, 2009-02-03. [dostęp 2013-07-12]. [zarchiwizowane z tego adresu (2012-01-01)].
usgs.gov
minerals.usgs.gov
- U.S. Geological Survey, 2012, commodity summaries 2016-01-01: U.S. Geological Survey.
- Apendixes. Według definicji USGS podstawa naliczania rezerwy „zawiera część zasobów które mają rozsądny potencjał bycia ekonomicznie opłacalnymi do wydobycia w granicach czasowych planowania wraz z założonym w tym okresie postępem w technologii wydobycia i zmianami gospodarczymi. Rezerwa podstawowa zawiera zasoby które są aktualnie opłacalne do wydobycia (reserves), na granicy opłacalności (marginal reserves), i część zasobów, która obecnie nie jest opłacalna do wydobycia (subeconomic resources).”.
- Joyce A. Ober: Commodity Report 1994: Lithium. United States Geological Survey, 1994. [dostęp 2010-11-03].
- Joyce A. Ober: Minerals Yearbook 2007 : Lithium. United States Geological Survey, 1994. [dostęp 2010-11-03].
- Joyce A Ober: Lithium. United States Geological Survey. s. 77–78. [dostęp 2007-08-19].
- USGS Mineral Commodities Summaries 2009. USGS.
- USGS: Lithium. 2011. [dostęp 2012-11-03].
vanderkrogt.net
elements.vanderkrogt.net
- Peter van der Krogt, Lithium [online], Elementymology & Elements Multidict [dostęp 2010-10-05].
web.archive.org
- Nuclear Weapon Design. fas.org. [zarchiwizowane z tego adresu (2016-08-28)]. Federation of American Scientists (1998-10-21). fas.org.
- Isotopes of Lithium. Berkeley National Laboratory, The Isotopes Project. [dostęp 2008-04-21]. [zarchiwizowane z tego adresu (2008-05-13)].
- Element Abundances. [dostęp 2009-11-17]. [zarchiwizowane z tego adresu (2006-09-01)].
- Fraser Cain: Brown Dwarf. Universe Today, 2009-02-03. [dostęp 2013-07-12]. [zarchiwizowane z tego adresu (2012-01-01)].
- Neil Reid, L Dwarf Classification [online], 10 marca 2002 [dostęp 2013-03-06] [zarchiwizowane z adresu 2013-05-21].
- Lithium occurrence. Institute of Ocean Energy, Saga University, Japan. [dostęp 2013-07-12]. [zarchiwizowane z tego adresu (2012-03-04)].
- Extraction of metals from sea water. Springer Berlin Heidelberg, 1984. [dostęp 2013-07-12]. [zarchiwizowane z tego adresu (2020-04-07)].
- Clarke, G.M. and Harben, P.W., „Lithium Availability Wall Map”. Published June 2009. Referenced at International Lithium Alliance.
- Johan August Arfvedson. [w:] Periodic Table Live! [on-line]. [dostęp 2009-08-10].
- Johan Arfwedson. [dostęp 2009-08-10]. [zarchiwizowane z tego adresu (5 czerwca 2008)].
- Timeline science and engineering. DiracDelta Science & Engineering Encyclopedia. [dostęp 2008-09-18]. [zarchiwizowane z tego adresu (2018-10-12)].
- Jesse Riseborough: IPad Boom Strains Lithium Supplies After Prices Triple. Businessweek.
- Parker, Ann. Mining Geothermal Resources. Lawrence Livermore National Laboratory.
- Application of lithium chemicals for air regeneration of manned spacecraft. Lithium Corporation of America & Aeropspace Medical Research Laboratories, 1965. [dostęp 2017-02-22]. [zarchiwizowane z tego adresu (2012-10-07)].
- ‘Splitting the Atom’: Cockcroft and Walton, 1932: 9. Rays or Particles?. www-outreach.phy.cam.ac.uk. [zarchiwizowane z tego adresu (2012-09-02)]., in April, 1932. Retrieved 14 June 2011.
- Illinois Attorney General – Basic Understanding Of Meth. Illinoisattorneygeneral.gov. [dostęp 2010-10-06]. [zarchiwizowane z tego adresu (2010-09-10)].
- Aaron R. Harmon. Methamphetamine remediation research act of 2005: Just what the doctor ordered for cleaning up methfields–or sugar pill placebo?. „North Carolina Journal of Law & Technology”. 7, 2006. [zarchiwizowane z adresu 2013-05-09].
- TSA: Safe Travel with Batteries and Devices. Tsa.gov, 1 stycznia 2008. [dostęp 2013-07-12]. [zarchiwizowane z tego adresu (2012-09-27)].
webelements.com
- WebElements Periodic Table of the Elements – Lithium: radii of atoms and ions. [dostęp 2010-11-15].
- Lithium:Historical information. [dostęp 2009-08-10].
wesleyan.edu
astro.wesleyan.edu
- Element Abundances. [dostęp 2009-11-17]. [zarchiwizowane z tego adresu (2006-09-01)].
wikidata.org
- Taylor, S.R.; McLennan, S.M.; The continental crust: Its composition and evolution, Blackwell Sci. Publ., Oxford, 330 pp. (1985). Zob. też Abundances of the elements.
wisc.edu
genchem.chem.wisc.edu
- Johan Arfwedson. [dostęp 2009-08-10]. [zarchiwizowane z tego adresu (5 czerwca 2008)].
worldcat.org
- Egon Wiberg, Inorganic chemistry, Nils Wiberg, Arnold Frederick Holleman, wyd. 1st English ed., San Diego: Academic Press, 2001, s. 1089, ISBN 0-12-352651-5, OCLC 48056955.