User:Graeme Bartlett/fluoride borate

Before adding here, consider Borate fluoride

A fluoride borate is a chemical compound containing both fluoride ions and borate ions. The fluorine atoms are not bound to the boron as in fluoroborates or fluorooxoborates.

• .
• Gd₄(BO₂)O₅F Space group Pmmn a=15.746 b=3.8142 c=6.609 V=396.9 Z=2 D=6.45 colourless
• Gd₂(BO₃)F₃
• Gd₃(BO₃)₂F₃
• Gd₄[B₄O₁₁]F₂
• Eu₅(BO₃)₃F
• Ba₅(BO₃)₃F

List

name	formula	ratio BO3:F	mw	system	space group	unit cell Å	volume	density	optical	discover	references
Arrheniusite-(Ce)	CaMg[(Ce7Y3)Ca5](SiO4)4(Si2B3AsO18)(BO3)F11	4:11		trigonal	R3m	a = 10.8082 c = 27.5196	2,784.1			2019	[1]
Berborite	Be2(BO3)(OH,F) · H2O	~1:1		trigonal	P3	a = 4.434 c = 5.334	90.82		Uniaxial (-) nω = 1.580 nε = 1.485 Max birefringence: δ = 0.095	1967	[2]
Britvinite	[Pb7(OH)3F(BO3)2(CO3)][Mg4.5(OH)3(Si5O14)]			triclinic	P1	a = 9.3409 b = 9.3579 c = 18.833 α = 80.365°, β = 75.816°, γ = 59.870° Z=2	1378.7	5.51	Biaxial (-) nα = 1.896 nβ = 1.903 nγ = 1.903 2V: measured: 20° Max birefringence: δ = 0.007	2006	[3]
Byzantievite	Ba5(Ca,REE,Y)22(Ti,Nb)18(SiO4)4[(PO4, SiO4)]4(BO3)9O22[(OH),F]43(H2O)1.5	~9:43		trigonal	R3	a = 9.1202 c = 102.145	7,357.4	4.10	Uniaxial (-) nω = 1.940 nε = 1.860(5) Max birefringence: δ = 0.080	2009	[4]
Cappelenite-(Y)	Ba(Y,Ce)6Si3B6O24F2	6:2		trigonal	P3	a = 10.67 c = 4.68 Z=1	461.4	4.407	Uniaxial	1884	[5]
Fluoborite	Mg3(BO3)(F,OH)3	~1:3		hexagonal		a = 8.8 c = 3.1	208		Uniaxial (-) nω = 1.570 nε = 1.534 Max birefringence: δ = 0.036	1926	[6]
Fluor-buergerite	Na(Fe3+3)Al6(Si6O18)(BO3)3O3F	3:1		trigonal	R3m	a = 15.87 c = 7.18 Z=3	1,566		Uniaxial (-) nω = 1.735 nε = 1.655 Max birefringence: δ = 0.080	1966	[7]
Fluor-dravite	Na(Mg3)Al6(Si6O18)(BO3)3(OH)3F	3:1		trigonal	R3m	a = 15.955 c = 7.153 Z=3	1576.9	3.120	Uniaxial (-) nω = 1.645 nε = 1.621 Max birefringence: δ = 0.024	2011	[8]
Fluor-elbaite	Na(Li1.5Al1.5)Al6(Si6O18)(BO3)3(OH)3F	3:1		trigonal	R3m	a = 15.8933 c = 7.1222 Z=3	1558.02		Uniaxial (-) Pleochromatic light green/blue green	2011	[9]
Fluor-feruvite	Ca(Fe2+)3MgAl5(Si6O18)(BO3)3(OH)3F	3:1		trigonal	R3m	Z=3				2008	[10]
Fluor-liddicoatite	Ca(Li2Al)Al6(Si6O18)(BO3)3(OH)3F	3:1		trigonal	R3m	a = 15.875 c = 7.126 Z=3	1,555.3	3.02	Uniaxial (-) nω = 1.637 nε = 1.621 Max birefringence: δ = 0.016	2011	[11]
Fluor-schorl	Na(Fe2+3)Al6(Si6O18)(BO3)3(OH)3F	3:1		trigonal	R3m	a = 16.005 c = 7.176 Z=3	1,591.9		Uniaxial (-) nω = 1.660 - 1.661 nε = 1.636 - 1.637 Max birefringence: δ = 0.024	2011	[12]
Fluor-tsilaisite	Na(Mn2+)3Al6(Si6O18)(BO3)3(OH)3F	3:1		trigonal	R3m	a = 15.9398 c = 7.1363 Z=3	1570.3	3.134	Uniaxial (-)	2012	[13]
Fluor-uvite	CaMg3(Al5Mg)(Si6O18)(BO3)3(OH)3F	3:1		trigonal	R3m	a = 15.954 c = 7.214 Z=3	1590	3.08	Uniaxial nω = 1.637 - 1.668 nε = 1.619 - 1.639 Max birefringence: δ = 0.018 - 0.029	2010	[14]
Hellandite-(Yb)	(Ca,Y)4(Yb,Y)2(Al,Fe3+,Ti4+)(Be,Li)2[B4Si4O22](O,F,OH)2	4:2									[15]
Jeremejevite	Al6B5O15(F,OH)3	1:1		Hexagonal	P63/m	a = 8.5591 c = 8.1814 Z=2	519.06	3.28	Uniaxial (-) nω = 1.653 nε = 1.640 Max birefringence: δ = 0.013	1883	[16]
Laptevite-(Ce)	Ca6(Fe2+,Mn2+)Y3REE7(SiO4)3(PO4)(B3Si3O18)(BO3)F11	1:11		trigonal	R3m	a = 10.804 c = 27.726 Z=3	2802.6	4.61	Uniaxial (-)	2011	[17]
Martinite	(Na,◻,Ca)12Ca4(Si,S,B)14B2O38(OH,Cl)2F2·4H2O	~16:2		triclinic	P1_	a = 9.5437 Å, b = 9.5349 Å, c = 14.0268 Å α = 108.943°, β = 74.154°, γ = 119.780° Z=2	1038.1			2001	[18]
Odigitriaite	CsNa5Ca5[Si14B2O38]F2	2:2		monoclinic	C2/c	a = 16.652 b = 9.598 c = 22.120 β = 92.87° Z=4	3,530.9	2.8	Biaxial nα = 1.502 nβ = 1.564 nγ = 1.576 2V: measured: 46° Max birefringence: δ = 0.074	2015	[19]
Okanoganite-(Y)	(Na,Ca)3(Y,Ce)12Si6B2O27F14	2:14		trigonal	R3m	a = 10.7108 c = 27.0398 Z=3	2,686.4	4.34	Uniaxial (-) nω = 1.753 nε = 1.740 Max birefringence: δ = 0.013	1979	[20]
Pertsevite-(F)	Mg2(BO3)(F,OH)	1:1		orthorhombic	Pna21	a = 20.49 b = 4.571 c = 11.89 Z=16	1113.6	3.12	Biaxial (+) nα = 1.609 nβ = 1.620 nγ = 1.642 2V: measured: 65° calculated: 71° Max birefringence: δ = 0.033	2002	[21]
Piergorite-(Ce)	Ca8(Ce,Th,La,Nd)2(Al0.5,Fe3+0.5)(◻,Li,Be)2Si6B8O36(OH,F)2	~8:2		monoclinic	P2/a	a = 28.097 b = 4.777 c = 10.236 β = 96.81 Z=2	1364.2	3.67	Biaxial (-) nα = 1.717 nβ = 1.728 nγ = 1.735 2V: measured: 68° calculated: 77° Max birefringence: δ = 0.018	2005	[22]
Popugaevaite	Ca3[B5O6(OH)6]FCl2•8H2O	5:1		monoclinic	Pm	a = 8.705 b = 8.102 c = 14.812 β = 91.367	1044.4			2020	[23]
Proshchenkoite-(Y)	Ca(Y,REE,Ca,Na,Mn)15Fe2+(P,Si)Si6B3O34F14	3:14		trigonal	R3m	a = 10.7527 c = 27.4002	2,743.6			2008	[24]
Rhabdoborite-(Mo)	Mg12Mo6+1.33O6(BO3)6F2	6:2		hexagonal	P63	a = 10.6304 c = 4.5637	446.63			2020	[25]
Rhabdoborite-(V)	Mg12(V5+,Mo6+,W6+)1 · 5O6{[BO3]6-x[(P,As)O4]xF2-x} (x < 1)			hexagonal	P63	a = 10.6314 c = 4.5661	446.95			2018	[26]
Rhabdoborite-(W)	Mg12(W6+,V5+)1 · 5O6{[BO3]6–x[(P,As)O4]xF2–x} (x < 1)			hexagonal	P63	a = 10.6366 c = 4.5701	447.78			2018	[27]
Sulfoborite	Mg3[B(OH)4]2(SO4)(OH,F)2	~2:2		Orthorhombic					Biaxial (-) nα = 1.527 nβ = 1.536 nγ = 1.551 2V: measured: 79° , calculated: 78° Max birefringence: δ = 0.024	1893	[28]
Tienshanite	KNa3Na6Ca2Ba6Mn6(Ti4+,Nb)6B12Si36O114(O,OH,F)11	~12:11		hexagonal	P6/m	a = 16.785 c = 10.454 Z=1	2550.7		Uniaxial (-) nω = 1.666 nε = 1.653 Max birefringence: δ = 0.013	1967	[29]
Vicanite-(Ce)	(Ca,Ce,La,Th)15As5+(As3+0.5,Na0.5)Fe3+Si6B4O40F7	4:7		trigonal					Uniaxial (-) nω = 1.757 nε = 1.722 Max birefringence: δ = 0.035	1991	[30]
Luinaite-(F)	Na(Fe2+)3Al6(Si6O18)(BO3)3(OH)3F	3:1								2013	[31]
	(Pb,Na)(Li,Al)3Al6(Si6O18)(BO3)3(OH)3(F,OH)	3:1								2009	[32]
Artificial
NBBF	NaBe2BO3F2				C2	a=12.643 b=8.729 c=7.591 β=113.6°	768		nx=1.37 ny=1.474 birefringence 0.07 -.10 UV limit 1550 Å	1993	[33]
	Al6(BO3)5F3										[34]
	Al8(BO3)4(B2O5)F8	3:4	704.70	tetragonal	P42/nmc	a=9.134 c=19.112 Z=4	1595	2.935	UV limit <190 nm		[34]
potassium beryllium borate fluoride KBBF	KBe2BO3F2	1:2	153.93		R32	a=4.4261 c=18.7617 Z=3	318.30	2.409			[33][35]
	Li5Ca9(BO3)7F2	7:2			P1
	NaCaBe2B2O6F	2:1	217.71		Cc	a=4.6232 b=8.008 c=14.182 Z=4	525.1	2.75		2011	[36][37]
	KCaBe2B2O6F	2:1	467.64		P3_1c	a=4.705 c=14.554 Z=2	279.1	2.783		2011	[37]
	KCaZn2(BO3)2F	2:1
	RbBe2BO3F2		200.30	trigonal	R32	a=4.4387 c=19.820 Z=3	338.17	2.951	colourless	2009	[38]
	RbCaBe2B2O6F	2:1			R32						[36]
	Rb18Mg6(B5O10)3(B7O14)2F	29:1	2944.81	monoclinic	C2/c	a=11.06 b=19.70 c=31.01 β=90.13 Z=4	6750	2.896		2015	[39]
hexalithium rubidium diborate fluoride	Li6RbB2O6F	2:1	263.73	orthorhombic	Pnma	a=8.41 b=15.96 c=5.08 Z=2	682	2.568		2014	[40]
	NaBe3Sr3(BO3)3F4				R3m
	KSrBe2B2O6F	2:1	281.36		P63/m	a=4.765 c=15.050 Z=2	296.0	3.157		2011	[37]
strontium beryllium borate fluoride SBBOF	Sr3[(BexB1–x)3B3O10][Be(O1–xFx)3] x = 0.30	~3:0.9	545.93	trigonal	R3m	a = 10.318, c = 8.396 Z = 3	774.1	3.513	SHG 2.2×KDP	2016	[41]
	K3SrLi2Al4B6O20F	6:1									[34]
	CdZn2KB2O6F	2:1
	Cd8B5O15F	5:1			Fd3̅m	a = 13.972(3) Å, and Z = 8				2016	[42]
	CsBe2BO3F2		247.74	trigonal	R32	a=4.4575 c=21.310 Z=3	366.7	3.366	colourless	2009	[38]
	CsCaBe2B2O6F				R32						[36]
	Cs18Mg6(B5O10)3(B7O14)2F	29:1	3798.73	monoclinic	C2/c	a=11.234 b=20.11 c=32.12 β=90.225 Z=4	7257	3.476		2015	[39]
	Ba5(BO3)3F	2:1									[43]
	Li2BaSc(BO3)2F	2:1	332.80	hexagonal	P63/m	a=4.895 c=14.346	297.7	3.713			[44]
	LiBa12(BO3)7F4	7:4			I4/mcm
	NaBa12(BO3)7F4	7:4			I4/mcm
	BaAl(BO3)F2										[34]
	K5Ba10(BO3)8F	8:1	2058.38	trigonal	R3̅c	a = 15.293 c = 22.699 Z = 6	4597.4	4.461	band gap 6.05 eV 205 nm cutoff	2016	[36]
	KMg2Ba7B14O28F5	14:5	1743.44	monoclinic	C2/c	a=16.638 b=13.609 c=15.214 β=121.309 Z=4	2943.3	3.934	colourless	2010	[45]
	K3BaLi2Al4B6O20F	6:1									[34]
	Ba3Zn(BO3)(B2O5)F	3:1	656.82	monoclinic	P21/c	a=15.179 b=7.006 c=8.763 β=100.148 Z=4	917.4	4.775	colourless	2016	[46]
	Ba4Zn2(BO3)2(B2O5)F2	4:2	937.34	monoclinic	C2/c	_a=20.39 b=4.998 c=13.068 β=92.59 Z=4	1330.7	4.679	colourless	2016	[46]
	Rb3SrLi2Al4B6O20F	6:1									[34]
	Gd4(BO2)O5F	1:1		orthorhombic	Pmmn	a=15.746 b=3.8142 c=6.609 Z=2	396.9	6.45	colourless		[47]
	Gd2(BO3)F3	1:3
	Gd3(BO3)2F3	2:3
	Gd4[B4O11]F2	4:2
	Eu5(BO3)3F	3:1	955.1	orthorhombic	Pnma	a=7.225 b=14.124 c=9.859 Z=4	1006.1	6.306	yellow	2010	[48]
	TlBe2BO3F2		319.20	Trigonal	R32	a=4.4387 c=19.942 Z=3	340.27	4.673	colourless	2009	[38]
	LiBa2Pb(BO3)2F	2:1	625.32	orthorhombic	Pmmn	a=5.487 b=15.97 c=4.034	353.4	5.887	colourless		[44]

References

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