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Chemical compound
FLiBe is a molten salt made from a mixture of lithium fluoride (LiF) and beryllium fluoride (BeF2). It is both a nuclear reactor coolant and solvent for
FLiBe
Type of nuclear reactor that uses molten material as fuel
doi:10.1038/d41586-021-02459-w. PMID 34504330. S2CID 237471852. "Flibe Energy". Flibe Energy. Retrieved 24 October 2012. "New Huntsville company to build
Liquid fluoride thorium reactor
Liquid_fluoride_thorium_reactor
reactor (LFTR) technology (a type of molten salt reactor). The name "Flibe" comes from FLiBe, a Fluoride salt of Lithium and Beryllium, used in LFTRs. Initially
List of small modular reactor designs
List_of_small_modular_reactor_designs
Type of nuclear reactor cooled by molten material
(such as cobalt and nickel), shortening lifespan. Lithium salts such as FLiBe warrant the use of 7 Li to reduce tritium generation (tritium can permeate
Molten-salt_reactor
Chemical compound
(FLiBe), into which fluorides of uranium and thorium are introduced. Lithium fluoride is exceptionally chemically stable and LiF/BeF2 mixtures (FLiBe)
Lithium_fluoride
Gas turbine using a working fluid in a closed loop
nuclear (Generation IV reactors) may employ CCGT for power generation, e.g. Flibe Energy intends to produce a liquid fluoride thorium reactor coupled with
Closed-cycle_gas_turbine
American nuclear energy company
Laboratory – a mixture of lithium fluoride and beryllium fluoride known as FLiBe. Fluoride is known to protect metals from the salt's corrosiveness at higher
Kairos_Power
Chemical element with atomic number 3 (Li)
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium
Nuclear reactor, Oak Ridge 1965–1969
was LiF-BeF2-ZrF4-UF4 (65-29.1-5-0.9 mole %). The secondary coolant was FLiBe (2LiF-BeF2), and it operated as hot as 650 °C and operated for the equivalent
Molten-Salt Reactor Experiment
Molten-Salt_Reactor_Experiment
its chemical stability at high temperatures. Ultimately, its sister salt, FLiBe, was chosen as the solvent salt for the molten salt reactor due to a more
FLiNaK
Chemical element with atomic number 4 (Be)
Beryllium fluoride is one of the constituent salts of the eutectic salt mixture FLiBe, which is used as a solvent, moderator and coolant in many hypothetical
Beryllium
Canceled nuclear power plant in Mississippi, US
construction ceased. Parts of the site have been leased for several years by Flibe Energy to investigate pursuing their molten salt reactor designs. United
Yellow_Creek_Nuclear_Plant
Salt that has melted, often by heating to high temperatures
Molten FLiBe (2LiF·BeF2)
Molten_salt
Component of nuclear fission or fusion reactors
{}^{1}_{0}n -> {}^{207m}_{82}{Pb}+ 2^{1}_{0}n}}} Another is the molten salt FLiBe, where beryllium undergoes the spallation: 4 9 Be + 0 1 n ⟶ 4 8 Be + 2 0
Breeding_blanket
Coolant in a nuclear reactor
less chemically reactive than sodium. Salts containing light elements like FLiBe can also provide moderation. In the Molten-Salt Reactor Experiment it even
Nuclear_reactor_coolant
Nuclear fuel cycle
uranium. Kirk Sorensen, former NASA scientist and Chief Technologist at Flibe Energy, has been a long-time promoter of thorium fuel cycle and particularly
Thorium_fuel_cycle
Isotope of uranium
Uranium-233 An ampoule containing solidified pieces of a FLiBe and uranium-233 tetrafluoride mixture General Symbol 233U Names uranium-233 Protons (Z)
Uranium-233
Device for controlled nuclear reactions
a molten salt, typically a eutectic mixture of fluoride salts, such as FLiBe. In a typical MSR, the coolant is also used as a matrix in which the fissile
Nuclear_reactor
Chemical element with atomic number 42 (Mo)
weldable, yet in tests it resisted corrosion of a standard eutectic salt (FLiBe) and salt vapors used in molten salt reactors for 1100 hours with so little
Molybdenum
Molten salt reactor prototype
constructed with the following specifications: Thermal power: 2 MW Fuel salt: FLiBe (>99.95% Li-7) with fluorides of zirconium, uranium (HALEU: 19.75% U-235)
TMSR-LF1
Substance used to reduce or regulate the temperature of a system
sodium fluoride and sodium tetrafluoroborate (NaF-NaBF4). Other choices are FLiBe and FLiNaK. Liquified gases are used as coolants for cryogenic applications
Coolant
Type of nuclear fission reactor
Scientists. Retrieved 26 August 2025. Scheele, Randall. "Flibe Molten Salt Processing". energy.gov. Flibe Energy, Inc. Retrieved 31 August 2025. Kooyman, T.
Small_modular_reactor
Pyroxene, inosilicate mineral rich in lithium
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Spodumene
Theoretical design for a compact fusion reactor
chamber in conventional designs are replaced by a fluorine lithium beryllium (FLiBe) molten salt that can easily be circulated/replaced, reducing maintenance
ARC_fusion_reactor
Nuclear power safety method that does not require electrical power nor intervention
FLiBe, which also carried the uranium-233 fluoride fuel dissolved in it. The MSRE had a negative temperature coefficient of reactivity: as the FLiBe temperature
Passive_nuclear_safety
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_hydroxide
Lithium-ion battery cathode material
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium nickel manganese cobalt oxides
Lithium_nickel_manganese_cobalt_oxides
Mood-stabilizing psychiatric medication
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_(medication)
Group of chemical elements
water and nuclear graphite have limited this to niche applications. In the FLiBe eutectic used in molten salt reactors, beryllium's role as a moderator is
Alkaline_earth_metal
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_carbonate
Material fuelling nuclear reactors
fuel for MSRE was uranium tetrafluoride dissolved in LiF-BeF2 mixture (FLiBe). It had a peak operating temperature of 705 °C in the experiment, but could
Nuclear_fuel
Cyclosilicate mineral group
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Tourmaline
Nuclear reactor generating more fissile material than it consumes
particularly liquid fluoride thorium reactors. In 2011, Sorensen founded Flibe Energy, a company aimed to develop 20–50 MW LFTR reactor designs to power
Breeder_reactor
Type of very-high-temperature reactor
elements, such as helium, nitrogen, or carbon dioxide. Other coolants such as FLiBe (molten Li2(BeF4)) have been suggested. The pebble-bed design has passively
Pebble-bed_reactor
New nuclear reactor technologies under development
Technologies, TerraPower, Elysium Industries, Thorizon, Moltex Energy, Flibe Energy (LFTR), Copenhagen Atomics, Thorium Tech Solution (FUJI MSR), Terrestrial
Generation_IV_reactor
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_orotate
Substance that slows down particles with no electric charge
lithium fluoride salt, typically in conjunction with beryllium fluoride salt (FLiBe). This is the most common type of moderator in a molten-salt reactor. Other
Neutron_moderator
Alloy of aluminium and lithium
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Aluminium–lithium_alloys
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_hypofluorite
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_chloride
1970s American fusion power project
Unalan & Selahaddin Orhan Akansu, "Determination of Main Parameters for FLIBE Cooled Peaceful Nuclear Explosive Reactors (PACER)"], Arabian Journal for
Project_PACER
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Tetralithiomethane
Chemical compound
beryllium fluoride is mixed with lithium fluoride to form a base solvent (FLiBe), into which fluorides of uranium and thorium are introduced. Beryllium
Beryllium_fluoride
Group of chemical compounds
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium nickel cobalt aluminium oxides
Lithium_nickel_cobalt_aluminium_oxides
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_niobate
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Environmentally friendly red light flare
Environmentally_friendly_red_light_flare
Cathode material for lithium batteries
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_iron_phosphate
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
N-Butyllithium
Cyclosilicate, mineral
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Elbaite
Freedom from others regarding energy
currently developing a fusion power device, based on magnetized target fusion. Flibe Energy aims to tackle the future of nuclear energy by researching and developing
Energy_independence
British environmental campaigner and life peer
Bryony Worthington on X The Thorium Lord Driving Force Radio - Thorium / Flibe Energy on YouTube. Worthington and Sorensen discuss "the progress and advantages
Bryony Worthington, Baroness Worthington
Bryony_Worthington,_Baroness_Worthington
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_hexafluorophosphate
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_hydride
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_azide
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_aluminium_hydride
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Tert-Butyllithium
Tendency of highly fluorinated molecules to vaporize
BeF2 4 1327 552 10Be:1.4my RbF 37 1410 795 UF4 92 1417 1036 233U:160ky FLiBe 1430 459 stable FLiNaK 1570 454 stable LiF 3 1676 848 stable KF 19 1502
Fluoride_volatility
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium bis(trimethylsilyl)amide
Lithium_bis(trimethylsilyl)amide
Chemical used in psychiatric treatment
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_citrate
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_diisopropylamide
Phyllosilicate mineral series in the trioctahedral mica group
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lepidolite
Simulates a nuclear reactor's coolant system and core
tables) Heavy water Gases (e.g. helium and carbon dioxide) Molten salts (e.g. FLiBe and FLiNaK) Liquid metals (e.g. sodium and lead-bismuth eutectic) Alternative
RELAP5-3D
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_sulfite
Class of chemical compounds
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Gilman_reagent
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_stearate
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_oxide
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_hypochlorite
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_tantalate
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_perchlorate
Lithium-stuffed garnet material
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
LLZO
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_platinate
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_nitride
Soap consisting of a lithium salt of a fatty acid
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_soap
American nuclear physicist (1915–2006)
Lithium-6 to prevent excessive neutron capture or tritium production) – FLiBe. The MSR also afforded the opportunity to change the chemistry of the molten
Alvin_M._Weinberg
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_permanganate
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_hexafluoroarsenate
Experimental psychiatric medication
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_cocrystal
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_tert-butoxide
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_phosphate
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_tungstate
Branch of fusion energy research
"waterfall" of FLiBe, a molten mix of fluoride salts of lithium and beryllium, which both protect the chamber from neutrons and carry away heat. The FLiBe is passed
Inertial_confinement_fusion
Phosphate mineral
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Amblygonite
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_ozonide
Mineral species
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Pezzottaite
Chemical compound of lithium and carbon, an acetylide
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Dilithium_acetylide
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_molybdate
Experimental nuclear reactor
0-12.0-0.5 mole %) as the primary fuel salt. The secondary coolant salt is FLiBe (2LiF-BeF2) (66-34 mol%). "The original goal of the MSDR design was to demonstrate
Molten Salt Demonstration Reactor
Molten_Salt_Demonstration_Reactor
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_aspartate
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_metasilicate
Class of solid materials
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
NASICON
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_acetate
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_helide
Silicate mineral, used in ceramic glazing
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Petalite
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Eucryptite
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Hexyllithium
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_methoxide
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_superoxide
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_tetramethylpiperidide
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_triflate
Chemical compound
(hypothetical) La2/3−xLi3xTiO3He (hypothetical) Compounds with halogens FLiBe FLiNaK LiAt (hypothetical) LiBr LiBrO LiBrO2 LiBrO3 LiBrO4 LiCl LiClO LiClO2
Lithium_phosphide
FLIBE
FLIBE
FLIBE
FLIBE
Girl/Female
Arabic
Range; Opportunity
Girl/Female
Anglo Saxon
A queen of the Iceni: Victory.
Boy/Male
French, German
Petitioner; Seed of a Fruit
Boy/Male
Assamese, Gujarati, Hindu, Indian, Kannada, Malayalam, Marathi, Mythological, Punjabi, Sikh, Telugu
An Ornament; Part of God; One who is Embraced by God
Boy/Male
Norse
Son of Gunnbjorn.
Boy/Male
Gujarati, Hindu, Indian, Kannada, Malayalam, Marathi, Telugu
Of Good Principles; Prudent
Girl/Female
Tamil
A firewood
Boy/Male
German Swedish
Protected by God.
Girl/Female
Tamil
Fine paint brush
Boy/Male
Tamil
Lord Krishna
FLIBE
FLIBE
FLIBE
FLIBE
FLIBE