Stable high-temperature borohydride formulation

Abstract

A stabilized aqueous mixture containing at least one borohydride compound and at least one metal hydroxide compound. The mixture has improved stability with regard to decomposition of borohydride, especially at elevated temperatures.

Description

DETAILED DESCRIPTION

Percentages are weight percentages and temperatures are in ° C., unless specified otherwise. A “borohydride compound” is a compound containing the borohydride anion, BH₄⁻. An “absorbent polymer” is a polymer capable of absorbing water. Preferably, absorbent polymers are chosen from among water-soluble polymers (polymers having water solubility of at least 1%, alternatively at least 5%), cellulose and its derivatives, and cross-linked polymers. Cross-linked polymers preferably have carboxyl, amide, hydroxy, amino, or ether groups, or a combination thereof, to facilitate dispersion in water. “Excipients” are pharmaceutical excipients as defined, e.g., in Handbook of Pharmaceutical Excipients, A. Wade & P. J. Weller (1964). Especially preferred excipients are those used as tablet disintegrants, e.g., polyacrylic acids, angelic acid, calcium alginate, carboxymethylcellulose (e.g., calcium or sodium salt), chitosan, croscarmellose sodium, crospovidone, docusate sodium, guar gum, polacrilin potassium, povidone, sodium alginate, sodium starch glycolate, and starch. In one embodiment of the invention, excipients have a water solubility of at least 0.5%, alternatively at least 1%. In one embodiment of the invention, preferred absorbent polymers include polyacrylic acids, polyacrylamide co polyacrylic acid, copolymers of acrylic acid (e.g., polyacrylic acid co polyethylene oxide), polyvinylpyrrolidone, polyvinylpyridine, polyvinylpyridine N-oxide, polyvinylimidazole, ethoxylated polyethylenimine, cellulose esters (e.g., acetate, butyrate), hydroxyalkyl celluloses, and carboxymethyl cellulose. The aqueous mixture of the present invention may be a solution, slurry, gel, or any other fluid mixture at temperatures of at least 40° C.: Mixtures having higher concentrations of borohydride, e.g., at least 50%, typically are solids or thick slurries at ambient temperature of about 25° C., but become fluid at higher temperatures.

In one embodiment, the amount of borohydride compound(s) is at least 20%, alternatively at least 25%. In one embodiment, the amount of metal hydroxide(s) is no more than 8%, alternatively no more than 6%, alternatively no more than 4%. In one embodiment of the invention, the amount of metal hydroxide is at least 2%, alternatively at least 3%. In one embodiment, the amount of borohydride compound is no more than 55%, alternatively no more than 50%, alternatively no more than 45%, alternatively no more than 40%. Preferably, the borohydride compound is a metal salt which has a metal cation from groups 1, 2, 4, 5, 7, 11, 12 or 13 of the periodic table, or a mixture thereof. In one embodiment, the borohydride compound is an alkali metal borohydride or combination thereof, alternatively it comprises sodium borohydride (SBH) or potassium borohydride or a mixture thereof, alternatively sodium borohydride. Preferably, the metal hydroxide is an alkali metal hydroxide or combination thereof, alternatively sodium, lithium or potassium hydroxide, or a mixture thereof, alternatively sodium hydroxide or potassium hydroxide; alternatively sodium hydroxide. More than one alkali metal borohydride and more than one metal hydroxide may be present.

In one embodiment of the invention, the amount of absorbent polymer(s) and/or excipient(s) is at least 0.2%, alternatively at least 0.4%, alternatively at least 1%, alternatively at least 2%. In one embodiment of the invention, the amount of absorbent polymer(s) and/or excipient(s) is no more than 15%, alternatively no more than 12%, alternatively no more than 10%, alternatively no more than 8%. In one embodiment of the invention, extremely small amounts of absorbent polymer(s) and/or excipient(s) are required; at least 0.1%, but no more than 1%, alternatively no more than 0.5%. For example, partially neutralized polyacrylic acids, or copolymers containing at least 20% acrylic acid monomer units, alternatively at least 30%, alternatively at least 50%, alternatively at least 75%, may require only very small amounts of absorbent polymer(s) and/or excipient(s). The degree of neutralization of the polyacrylic acids added to the borohydride compound(s) is not critical because the aqueous mixture contains additional base, so that the acids typically will be completely neutralized in the aqueous mixture. For polymers used in this invention, a weight average molecular weight of at least 1500 is preferred, alternatively at least 3000, alternatively at least 5000.

In one embodiment of the invention, the aqueous mixture is substantially free of substances that catalyze hydrolysis of borohydride, e.g., salts of transition metals such as Co, Ru, Ni, Fe, Rh, Pd, Os, Ir, Pt, or mixtures thereof, and borides of Co and/or Ni.

The aqueous mixture of this invention also may be used in the fields of synthesis and metal recovery.

EXAMPLES

TABLE 1
Decomposition rate of solutions containing 25% SBH, 3% NaOH with
additives at room temperature and 60° C.
		Rate of	Rate of
		decomposition	decomposition	% decrease
25% SBH, 3% NaOH	Wt % of	At RT,	at 60° C.	in decomposition
with Additive	additive	% SBH/day	% SBH/day	rate at 60° C.
None, 25% NaBH4,	N/A	−0.12	−0.958	N/A
3% NaOH
Poly acrylic acid	0.5	−0.05	−0.564	41
partial sodium salt,
lightly cross linked
(solid) CAS # 76774-
25-9
Poly acrylamide co	0.5	−0.074	−0.662	31
acrylic acid partial
sodium salt (solid)
Mw = 15,000,000
Poly acrylic acid co	0.5	−0.012	−0.614	36
poly ethylene oxide
(solid) CAS # 27599-
59-56-0
Poly vinyl	0.5	−0.004	−0.734	23
pyrrolidone (solid)
Mw = 10,000; CAS #
9003-39-0
Carboxy methyl	0.5	−0.032	−0.728	24
cellulose sodium salt
(solid) Mw = 70,000;
CAS # 9004-39-4

The addition of poly acrylic acid partial cross linked partial sodium salt to higher-concentration sodium borohydride formulations also results in decreasing the hydrolysis rates of the 40 and 50 wt % formulations. An unexpected phenomenon has been observed when these formulations are heated for long periods of time. After an initial induction period, the rate of hydrolysis of the borohydride decreases to nearly zero.

TABLE 2
Decomposition rate (“DR”) of solutions containing 40% SBH,
5% NaOH with additives at room temperature and 50° C.
					DR at 50° C.
			DR at	%	% SBH/Day
40% SBH, 5%	Wt %	DR at	50° C.	decrease	After
NaOH with	of	RT %	% SBH/	in DR	induction
Additive	additive	SBH/day	Day	at 50° C.	period
None, 40%	N/A	0.0549	0.3604	N/A	N/A
NaBH4, 5%
NaOH
Poly acrylic	0.5	0.0333	0.1139	68	0.0547
acid partial
sodium salt,
lightly cross
linked (solid)
CAS # 76774-
25-9
Poly acrylic	4%	0.0339	0.1716	52	0.0084
acid partial
sodium salt
(Liquid) Mw =
30,000; CAS #
9003-04-07

TABLE 3
Decomposition rate of solutions containing 50% SBH,
5% NaOH with additives at room temperature and 58° C.
					DR at 58° C.
			DR at		% SBH/day
50% SBH, 5%	Wt %	DR at	58° C.	%	after
NaOH with	of	RT %	% SBH/	decrease	induction
Additive	additive	SBH/day	day	in DR	period
None, 50%	N/A	0.0031	0.35	N/A	N/A
NaBH4, 5%
NaOH
Poly acrylic	0.5%	—	0.03121	91	0.01165
acid partial
sodium salt,
lightly cross
linked (solid)
CAS #
76774-25-9
Poly acrylic	4%	—	0.01715	95	0.01388
acid partial
sodium salt
(Liquid)
Mw = 30,000;
CAS #
9003-04-07

TABLE 4
Decomposition rate of solutions containing 25% SBH, 5% NaOH with
different wt % of poly acrylic acid), partial sodium salt solid at 22° C.
	Wt %	Rate of decomposition %
Temp ° C.	additive	SBH/Day	% Difference
22	0	0.026	N/A
22	0.5	0.011	57.7
22	1	0.0485
22	1.5	0.0473
22	2	0.0473
22	4	0.025	3.8

TABLE 5
Decomposition rate of solutions containing 25% SBH, 5% NaOH with
different wt % of poly acrylic acid), partial sodium salt solid at 60° C.
	Wt %	Rate of decomposition %
Temp ° C.	additive	SBH/Day	% Difference
60	0	0.4334	N/A
60	0.5	0.3764	13.2
60	1	0.409	5.6
60	1.5	0.424	2.1
60	2	0.4114	5.1
60	4	0.4201	3.1

TABLE 6
Decomposition rate of solutions containing 25% SBH, 5% NaOH with
different wt % of poly (acrylic acid sodium salt 30% in water
Mw = 15,000 at 22° C. (wt. % additive in this table,
and following tables based on total polymer/water formulation)
		Rate of	Rate of decomposition
	Wt %	decomposition,	of standard, %	%
Temp ° C.	additive	% SBH/Day	SBH/Day	Difference
22	0
22	10	0.1161	0.0114
22	5	0.0019	0.1029	98.1
22	1	0.046	0.0421

TABLE 7
Decomposition rate of solutions containing 25% SBH, 5% NaOH with
different wt % of polyacrylic acid sodium salt 30% in
water Mw = 15,000 at 60° C.
			Rate of
		Rate of	decomposition of
	Wt %	decomposition,	standard, %
Temp ° C.	additive	% SBH/Day	% SBH/Day	% Difference
60	0
60	10	0.3982	0.4993	20.2
60	5	0.4301	0.4964	13.3
60	1	0.4236	0.4399	3.7

TABLE 8
Decomposition rate of solutions containing 25% SBH, 5% NaOH with
15 wt % of polyethyleneimine 80% ethoxylated at 22° C.
			Rate of
		Wt %	decomposition %	%
Temp ° C.		additive	SBH/Day	Difference
	Standard	0	0.0585	N/A
22	Polyethylenimine	15	0.0116	80.1
	80%, ethoxylated
	37% in water
	Mw = 50,000; CAS
	# 26558-46-8
22	Polyethylenimine	15	0.0321	45.1
	80% ethoxylated	15
	35 to 40% in
	water Mw =
	70,000; CAS #
	26558-46-8

TABLE 9
Decomposition rate of solutions containing 25% SBH, 5% NaOH with
15 wt % of polyethyleneimine 80% ethoxylated at 60° C.
			Rate of
Temp		Wt %	decomposition	%
° C.		additive	% SBH/Day	Difference
	Standard	0	0.5782	N/A
60	Polyethyleneimine 80%	15	0.5096	11.8
	ethoxylated, 37% in water
	Mw = 50,000; CAS #
	26558-46-8
60	Polyethylenimine 80%	15	0.5052	12.6
	ethoxylated, 35 to 40% in
	water Mw = 70,000; CAS #
	26558-46-8

TABLE 10
Decomposition rate of solutions containing 25% SBH, 5% NaOH with
15 wt % different MW polyacrylic acid sodium salts at 22° C.
			DR
Temp		Wt %	% SBH/	%
° C.		additive	Day	Difference
	Standard	0	0.0585	N/A
22	Poly (acrylic acid sodium salt 45%	15	0.06493	Higher
	in water Mw = 1,200; CAS # 9003-			by 10
	04-7
22	Poly (acrylic acid sodium salt 45%	15	0.0257	56.0
	in water Mw = 8,000; CAS # 9003-
	04-7
22	Poly (acrylic acid sodium salt 40%	15	0.0091	84.4
	in water Mw = 30,000; CAS #
	9003-04-7

TABLE 11
Decomposition rate of solutions containing 25% SBH, 5% NaOH with
15 wt % of different MW poly acrylic acid sodium salts at 60° C.
			DR
Temp		Wt %	%SBH/	%
° C.		additive	Day	Difference
	Standard	0	0.5782	N/A
60	Poly (acrylic acid sodium salt 45%	15	0.3812	34.0
	in water Mw = 1,200; CAS #
	9003-04-7
60	Poly (acrylic acid sodium salt 45%	15	0.3607	37.6
	in water Mw = 8,000; CAS #
	9003-04-7
60	Poly (acrylic acid sodium salt 40%	15	0.3736	35.38
	in water Mw = 30,000; CAS #
	9003-04-7

Claims

1. An aqueous mixture comprising: (a) from 15% to 65% of at least one borohydride compound;(b) from 1% to 10% of at least one metal hydroxide; and(c) from 0.1% to 20% of at least one absorbent polymer or excipient.

2. The aqueous mixture of claim 1 in which said at least one borohydride compound is sodium borohydride, potassium borohydride or a combination thereof, and said at least one metal hydroxide is sodium, lithium or potassium hydroxide, or a combination thereof

3. The aqueous mixture of claim 2 in which said at least one absorbent polymer or excipient is selected from among water-soluble polymers, cellulose and its derivatives and cross-linked polymers.

4. The aqueous mixture of claim 3 in which the borohydride compound is sodium borohydride and the base is sodium hydroxide.

5. The aqueous mixture of claim 4 having from 2% to 8% sodium hydroxide and from 20% to 50% sodium borohydride.

6. The aqueous mixture of claim 5 in which said at least one absorbent polymer or excipient is polyacrylic acid or a copolymer of acrylic acid having at least 50% acrylic acid monomer units.

7. The aqueous mixture of claim 6 having from 0.1% to 1% polyacrylic acid or acrylic acid copolymer, and in which weight average molecular weight of the polyacrylic acid or copolymer of acrylic acid is at least 1500.

8. A method for stabilizing an aqueous borohydride mixture containing from 15% to 65% of at least one borohydride compound and from 1% to 10% of at least one metal hydroxide; said method comprising adding from 0.1% to 20% of at least one absorbent polymer or excipient.

9. The method of claim 8 said at least one metal hydroxide is sodium hydroxide and said at least one borohydride compound is sodium borohydride.

10. The method of claim 9 in which the aqueous borohydride mixture has from 2% to 8% sodium hydroxide and from 20% to 50% sodium borohydride.