7757-83-7

Basic information

• Product Name: Sodium sulfite
• Synonyms: Sodium sulfite anhydrous;SODIUM SULFITE, EXSICCATED;SODIUM SULPHITE;anhydroussodiumsulfite;disodiumsulfite;exsiccatedsodiumsulfite;natriisulphis;natriumsulfid
• CAS NO: 7757-83-7
• Molecular Formula: 2Na*O₃S
• Molecular Weight: 126.04
• EINECS: 231-821-4
• Product Categories: Inorganic Chemicals;Inorganics;Water Ttreatment Chemicals;Analytical Reagents for General Use;Puriss p.a.;Q-S, Puriss p.a.;Disulfide Bridge Cleavage Reagents;AlphabeticalBiochemicals and Reagents;Biochemicals and Reagents;Denaturation;Inorganic Salts;Synthetic Reagents;Essential Chemicals;Reagent Grade;Routine Reagents;ACS GradeBiochemicals and Reagents;Disulfide Bridge Cleavage ReagentsSynthetic Reagents;inorganic compound;Paper, glass, printing and dyeing
• Mol File: 7757-83-7.mol
• Article Data: 9

Chemical Properties

• Melting Point: 500 °C
• Appearance: White to slightly yellow/Solid
• Density: 2.63
• Refractive Index: 1,484
• Storage Temp.: Store at RT.
• Solubility: H2O: 1 M at 20 °C, clear, colorless
• Water Solubility: 23 g/100 mL (20 ºC)
• Sensitive: Hygroscopic
• Stability: Stable. Incompatible with strong acids. Moisture and air sensitive.
• Merck: 14,8682
• CAS DataBase Reference: Sodium sulfite(CAS DataBase Reference)
• NIST Chemistry Reference: Sodium sulfite(7757-83-7)
• EPA Substance Registry System: Sodium sulfite(7757-83-7)

Safety Data

• Hazard Codes: Xn
• Statements: 31-36/37/38-22-40-36/38
• Safety Statements: 24/25-36-26-22
• WGK Germany: 1
• RTECS: WE2150000
• F: 3-10
• TSCA: Yes
• Hazardous Substances Data: 7757-83-7(Hazardous Substances Data)

Usage

Description

As a soluble sodium salt of sulfurous acid, Sodium sulfite (Na2SO3) shows blenching, de-sulfurizing and dechlorinating properties which is widely applied in various fields. It is primarily used in the pulp and papermaking industry due to its blenching activity. It can serve as a good additive to help preserve the fresh appearance of good products. Besides, sodium sulfite is a component in many pharmaceuticals, which is effective to maintain the potency and stability of drugs. It can also be applied for water treatment as an oxygen scavenger agent and applied in flue gas desulfurization and preservation of photo developer solutions, etc.

Uses

Different sources of media describe the Uses of 7757-83-7 differently. You can refer to the following data:
1. Sodium sulfite (Na2SO3) is an antioxidant, used as a preservative except with meats. It is also used for water treatment and in photography and textile bleaching.
2. sodium sulfite has anti-septic, preservative, and anti-oxidant properties. Sodium sulfite is also a topical anti-fungal.
3. These white crystals were prepared by passing sulfurous gas over moist sodium carbonate. Sodium sulfite is soluble in water but less so in alcohol. It was used as a preservative for alkaline developers and as a hypo clearing agent in photographic printing.
4. Paper industry (semichemical pulp), reduc- ing agent (dyes), water treatment, photographic developer, food preservative and antioxidant, tex- tile bleaching (antichlor).

References

https://en.wikipedia.org/wiki/Sodium_sulfite https://pubchem.ncbi.nlm.nih.gov/compound/24437#section=Top http://www.calabriancorp.com/product/sodium-sulfite-anhydrous http://www.livestrong.com/article/108427-list-foods-sulfite-allergies/

Chemical Properties

Different sources of media describe the Chemical Properties of 7757-83-7 differently. You can refer to the following data:
1. Sodium sulfite occurs as an odorless white powder or hexagonal prisms. Note that the commercially available sodium sulfite is often presented as a white to tan- or pink-colored powder that would not conform to the pharmacopeial specification.
2. Sodium sulfite,Na2S03, is a white,water-soluble, crystalline solid with a sulfurous, salty taste. It decomposes when heated. Sodium sulfite is used as a source of sulfite,as a chemical intermediate and food preservative, in medicine and paper manufacturing, in photographic developing, and as a bleaching agent in the textile industry. Most boiler operators use sodium sulfite for chemicals cavenging of oxygen in the feedwater. Because it decomposes into acidic gases at the high temperatures that accompany high pressures, sodium sulfite should not be used for this purpose at pressures above 122atm (12.4MPa,or 1.8 ksi).

Definition

Different sources of media describe the Definition of 7757-83-7 differently. You can refer to the following data:
1. ChEBI: An inorganic sodium salt having sulfite as the counterion.
2. sodium sulphite: A white solid,Na2SO3, existing in an anhydrousform (r.d. 2.63) and as a heptahydrate(r.d. 1.59). Sodium sulphite is solublein water and because it is readily oxidizedit is widely used as a convenientreducing agent. It is preparedby reacting sulphur dioxide with eithersodium carbonate or sodium hydroxide.Dilute mineral acids reversethis process and release sulphur dioxide.Sodium sulphite is used as ableaching agent in textiles and inpaper manufacture. Its use as an antioxidantin some canned foodstuffsgives rise to a slightly sulphuroussmell immediately on opening, butits use is prohibited in meats or foodsthat contain vitamin B1. Sodium sulphitesolutions are occasionally usedas biological preservatives.

Production Methods

Sodium bisulfite is prepared by reacting sulfur dioxide gas with sodium hydroxide solution. The solid material is obtained by evaporation of water. Further neutralization with sodium hydroxide while keeping the temperature above 33.6°C leads to crystallization of the anhydrous sodium sulfite (below this temperature the heptahydrate form is obtained).

General Description

White odorless powder. Density 2.633 g / cm3. Moderately toxic. Sinks in water and dissolves slowly. Also transported as a heptahydrate Na2SO3.7H2O.

Air & Water Reactions

Soluble in water. Reacts with hot water, steam or acids to produce corrosive material.

Reactivity Profile

Sodium sulfite is a reducing agent, particularly under basic conditions. Reacts with oxidizing agents such as peroxides, epoxides, oxoacids. Emits toxic fumes of sodium oxide and oxides of sulfur if heated to decomposition [Lewis, 3rd ed., 1993, p. 1174].

Hazard

Use prohibited in meats and other sources of Vitamin B 1

Health Hazard

When ingested, solutions cause gastric irritation by the liberation of sulfurous acid. Because of rapid oxidation to sulfate, sulfites are well tolerated until large doses are reached; then violent colic and diarrhea, circulatory disturbances, central nervous depression, and death can occur.

Fire Hazard

Literature sources indicate that Sodium sulfite is noncombustible.

Pharmaceutical Applications

Sodium sulfite is used as an antioxidant in applications similar to those for sodium metabisulfite. It is also an effective antimicrobial preservative, particularly against fungi at low pH (0.1% w/v of sodium sulfite is used). Sodium sulfite is used in cosmetics, food products, and pharmaceutical applications such as parenteral formulations, inhalations, oral formulations, and topical preparations.

Contact allergens

Sodium sulfite is mainly used in photographic developers, for fixing prints, bleaching textile fibers, as a reducer in manufacturing dyes, as a remover of Cl in bleached textiles and paper, and as a preservative in the food industry for meat, egg yolks, and so on.

Safety Profile

Poison by intravenous and subcutaneous routes. Moderately toxic by ingestion and intraperitoneal routes. Human mutation data reported. When heated to decomposition it emits very toxic fumes of Na2O and SOx. A reducing agent. See also SULFITES.

Safety

Sodium sulfite is widely used in food and pharmaceutical applications as an antioxidant. It is generally regarded as relatively nontoxic and nonirritant when used as an excipient. However, contact dermatitis and hypersensitivity reactions have been reported. The acceptable daily intake for sodium sulfite has been set at up to 350 mg/kg body-weight daily. LD50 (mouse, IP): 0.950 g/kg LD50 (mouse, IV): 0.130 g/kg LD50 (mouse, oral): 0.820 g/kg LD50 (rabbit, IV): 0.065 g/kg LD50 (rabbit, oral): 1.181 g/kg LD50 (rat, IV): 0.115 g/kg

Environmental Fate

Because sodium sulfite is a solid powder that is generally sold as a ‘food grade’ substance, there is very little information available on the environmental fate of sodium sulfite. It has a molecular weight of 126.04 g mol-1. At 20°C, the solubility in water is 250 000 mg l-1, and as it is an inorganic salt the vapor is negligible (USEPA, 2011). The log octanol/water partition coefficient is estimated to be
7.78. If released into water or soil, sodium sulfite would most likely be oxidized to sulfate, which would then be available for use by bacteria or plants as a nutrient. The US Environmental Protection Agency (EPA) EPI Suite computer program (USEPA, 2011) estimates both a bioconcentration factor and a bioaccumulation factor of 0.89. These factors are less than one, meaning that bioconcentration and/or bioaccumulation of sodium sulfite would be virtually negligible and therefore would not cause any adverse effects to fish and wildlife.

storage

Sodium sulfite should be stored in a well-closed container in a cool, dry, place. In solution, sodium sulfite is slowly oxidized to sulfate by dissolved oxygen; strong acids lead to formation of sulfurous acid/ sulfur dioxide. On heating, sodium sulfite decomposes liberating sulfur oxides.

Purification Methods

Crystallise the sulfite from warm water (0.5mL/g) by cooling to 0o. Also purify it by repeated crystallisation from deoxygenated water inside a glove-box, and finally drying it under vacuum. [Rhee & Dasgupta J Phys Chem 89 1799 1985.]

Toxicity evaluation

The exact mechanism of toxicity has not been elucidated, although there is a lot of information on how sulfur-based compounds are detoxified by the liver. Sodium sulfite is a mild reducing agent that would most likely cause burning or irritation at the site of exposure or application by altering oxidation–reduction potential and pH. Sulfites are used widely as antioxidants to keep foods from prematurely spoiling and to keep them looking ‘fresh’ by preventing oxidation and subsequent ‘browning.’ Many people, however, are ‘sulfite sensitive.’ After ingestion of food or beverages containing sulfite, these people may have allergictype reactions such as asthmatic wheezing, hypotension, tingling sensations, and flushing of the skin. The mechanism is unclear but probably has to do with an individual-specific chemical stimulation of the immune system, which in turn releases small amounts of vasoactive substances.

Incompatibilities

Sodium sulfite is incompatible with acids, oxidizing agents, many proteins, and vitamin B1.

Regulatory Status

GRAS listed. Accepted for use as a food additive in Europe. Included in FDA Inactive Ingredients Database (epidural, IM, IV, and SC injections; inhalation solution; ophthalmic solutions; oral syrups and suspensions; otic solutions; topical creams and emulsions). Included in nonparenteral medicines licensed in the UK.

InChI:InChI=1/2Na.H2O3S/c;;1-4(2)3/h;;(H2,1,2,3)/q2*+1;/p-2

Synthetic route

sodium sulfate (7757-82-6) → sodium sulfite (7757-83-7)

Conditions	Yield
With pyrographite In neat (no solvent) redn., 750°C, diameter of C-particels about 0.4mm, 30min;;	93%
In neat (no solvent) byproducts: SO2; heating of Na2SO4 in under exclusion of air; evolution of SO2;;
With pyrographite In neat (no solvent) redn., coating of react.-vessel: forsterite;;
With pyrographite In melt melting with sand and coal;;

sodium sulfide + sulphurous acid (7782-99-2) → hydrogen sulfide (7783-06-4) + water (7732-18-5) + sodium thiosulfate + sodium sulfite (7757-83-7)

Conditions	Yield
In water a mixt. of 7% SO2 and 93% N2 is introduced into concd. Na2S soln. at 60°C;;	A n/a B n/a C 46% D n/a

sodium sulfide + sulphurous acid (7782-99-2) + sodium hydroxide (1310-73-2) → hydrogen sulfide (7783-06-4) + water (7732-18-5) + sodium thiosulfate + sodium sulfite (7757-83-7)

Conditions	Yield
In water 7 % SO2;	A n/a B n/a C 37.5% D n/a

Sodium thiosulfate pentahydrate → sodium sulfate (7757-82-6) + sodium sulfite (7757-83-7)

Conditions	Yield
standing for 2.5 months;	A n/a B 0.015%
With oxygen In neat (no solvent) oxidation at 150°C;;
standing for 2.5 months;	A n/a B 0.015%

dolomite + sulfur dioxide (7446-09-5) + sodium sulfate (7757-82-6) → sodium sulfite (7757-83-7)

Conditions	Yield
In not given introduction of SO2 into dolomite; reaction of the formed sulfite with Na2SO4;;

disulfur monoxide (20901-21-7, 1190841-11-2) + sodium hydroxide (1310-73-2) → sodium sulfite (7757-83-7)

Conditions	Yield
In tetrachloromethane with dild. NaOH soln.;
In tetrachloromethane with dild. NaOH soln.;

ozone (10028-15-6) + sodium thiosulfate → sodium sulfate (7757-82-6) + sodium sulfite (7757-83-7)

Conditions	Yield
In neat (no solvent) byproducts: O2, S;

sodium sulfide + ozone (10028-15-6) → sodium sulfite (7757-83-7)

Conditions	Yield
In neat (no solvent) reaction of O3 with Na2S leads to formation of an addn. product as intermediate, which rearranges immediately into Na2SO3;;
In water byproducts: Na2S2O3, Na2S2O4; reaction of aq. Na2S with ozone; formation of Na2SO3 and a small amount of Na2S2O3 and Na2S2O4;;

sodium thiosulfate → potassium sulfate + chromium(III) chromate + sulfur (7704-34-9) + sodium sulfite (7757-83-7)

Conditions	Yield
With potassium chromate; magnesium chloride In water byproducts: KCl;
With potassium chromate; water; ammonium chloride In water byproducts: KCl, NH4OH;
With K2CrO4; NH4Cl; H2O In water byproducts: KCl, NH4OH;
With K2CrO4; MgCl2 In water byproducts: KCl;

sodium thiosulfate → oxygen (80937-33-3) + sulfur (7704-34-9) + sodium sulfate (7757-82-6) + sodium sulfite (7757-83-7)

Conditions	Yield
With ozone In not given neutral soln.;
With O3 In not given neutral soln.;

sodium thiosulfate → sodium pentasulfide + sulfur (7704-34-9) + sodium sulfate (7757-82-6) + sodium sulfite (7757-83-7)

Conditions	Yield
In neat (no solvent) decomposition without influence of air at 350°C, amount of formed by-products Na2SO4 and Na2S5 increases with increasing temperature;;
In neat (no solvent) decomposition without influence of air at 350°C, amount of formed by-products Na2SO4 and Na2S5 increases with increasing temperature;;

sodium thiosulfate → sulfur (7704-34-9) + sodium sulfite (7757-83-7)

Conditions	Yield
In water decomposition in aq. soln.;;
With carbon dioxide In water
With silica gel In water decomposition in aq. soln. under influence of light or dust;;

sodium thiosulfate → potassium sulfite + chromium(III) chromate + sodium sulfite (7757-83-7)

Conditions	Yield
With potassium dichromate In water Na2S2O3 in excess, soln. heated;	A n/a B >99 C n/a
With K2Cr2O7 In water Na2S2O3 in excess, soln. heated;	A n/a B >99 C n/a

sodium thiosulfate → sodium sulfite (7757-83-7)

Conditions	Yield
In neat (no solvent) byproducts: S; heating to 310-385°C;;
With copper In water dissulfuration by Cu while heating to 170°C;;
With copper In neat (no solvent) dissulfuration by Cu while heating to 115°C;;

sodium thiosulfate → disulfur (23550-45-0) + sodium sulfite (7757-83-7)

Conditions	Yield
In neat (no solvent) Kinetics; investigation of the disproportionation of Na2S2O3 (scattered on an Al-foil) at 495-548K; not isolated; investigation of kinetics by X-ray photoelectron spectroscopy;

sodium thiosulfate → sodium sulfide + sodium sulfite (7757-83-7)

Conditions	Yield
With sodium amalgam In not given dissociation of Na2S2O3 with sodium amalgam;;
With sodium In ammonia Kinetics; -34 - -65°C; followed by iodometry;

bromocyane (506-68-3) + sodium thiosulfate → sodium tetrathionate + sodium thiocyanide (540-72-7) + sodium sulfate (7757-82-6) + sodium bromide (7647-15-6) + sodium sulfite (7757-83-7)

Conditions	Yield
With water In not given byproducts: HCN;

bromocyane (506-68-3) + sodium thiosulfate → sodium tetrathionate + sodium thiocyanide (540-72-7) + sodium sulfate (7757-82-6) + sodium sulfite (7757-83-7)

Conditions	Yield
With water In water byproducts: HCN, NaBr; neutral soln., 0.1n Na2S2O3 soln. in excess;
With H2O In water byproducts: HCN, NaBr; neutral soln., 0.1n Na2S2O3 soln. in excess;

sodium thiosulfate + magnesium (7439-95-4) → magnesium hydroxide + magnesium hydrogensulfide + hydrogen sulfide (7783-06-4) + sodium sulfite (7757-83-7)

Conditions	Yield
In water reaction with Mg band at boiling heat;;
In water

sodium (7440-23-5) + sodium thiosulfate → sodium sulfide + sodium sulfite (7757-83-7)

Conditions	Yield
With Na-amalgame In not given cleaving by Na-amalgame;;

copper (12775-96-1, 15158-11-9, 15721-63-8, 16941-75-6, 17493-86-6, 19498-52-3, 20499-83-6, 20499-84-7, 20499-85-8, 20499-86-9, 20573-10-8, 20573-11-9, 21595-51-7, 21595-52-8, 22206-52-6, 26445-28-3, 28959-95-7, 37362-93-9, 39417-05-5, 54603-16-6, 54603-23-5, 54603-32-6, 54603-40-6, 54603-48-4, 54603-81-5, 54603-89-3, 56316-56-4, 95985-91-4, 122297-32-9, 7440-50-8) + sodium thiosulfate → copper(I) sulfide (22205-45-4) + sodium sulfite (7757-83-7)

Conditions	Yield
In water at boiling;

sodium thiosulfate + zinc (7440-66-6) → zinc sulfide + sodium sulfite (7757-83-7)

Conditions	Yield
In not given in concd. NaOH soln., by warming, in 1 h 31% of S of Na2S2O3 pptd. as ZnS, resp.;
In not given in concd. NaOH soln., by warming, in 3 h 38% of S of Na2S2O3 pptd. as ZnS, resp.;
In not given in concd. NaOH soln., by warming, in 7 h 43% of S of Na2S2O3 pptd. as ZnS, resp.;

sodium cyanide (773837-37-9) + sodium thiosulfate → sodium thiocyanide (540-72-7) + sodium sulfite (7757-83-7)

Conditions	Yield
In water Kinetics; at 25, 69.84 and 90.00 °C;;
In water in the presence of rhodanase from liver or kidney;;
In water Kinetics; at 25, 69.84 and 90.00 °C;;
In water in the presence of rhodanase from liver or kidney;;

sodium thiosulfate + sodium hydroxide (1310-73-2) → sodium sulfide + water (7732-18-5) + sodium sulfite (7757-83-7)

Conditions	Yield
In not given 140-200°C;

sodium thiosulfate + sodium hydroxide (1310-73-2) + sodium nitrite (7632-00-0) → nitrogen (7727-37-9) + water (7732-18-5) + sodium sulfite (7757-83-7)

Conditions	Yield
In sodium hydroxide

sodium thiosulfate + sodium hydroxide (1310-73-2) + sodium nitrite (7632-00-0) → ammonia (7664-41-7) + sodium sulfite (7757-83-7)

Conditions	Yield
With water In sodium hydroxide at high temp.;

sodium stannate(II) + sodium thiosulfate → sodium thiostannate + sodium stannate + sodium sulfite (7757-83-7)

Conditions	Yield
With water In water byproducts: NaOH; in alk. soln., at room temp.;
With H2O In water byproducts: NaOH; in alk. soln., at room temp.;

tin (II) sulfide + sodium thiosulfate → sodium thiostannate + sodium stannate + sodium sulfite (7757-83-7)

Conditions	Yield
In water in alk. soln.;
In water in alk. soln.;

potassium nitrate + sodium hydroxide (1310-73-2) + sodium sulfite (7757-83-7) → sodium nitrite (7632-00-0)

Conditions	Yield
In neat (no solvent) reaction of KNO3 and NaOH with an excess of Na2SO3 (free of water) at temp. between 320 and 420°C;;	98%

oxygen (80937-33-3) + sodium sulfite (7757-83-7) → Sulfate (14808-79-8)

Conditions	Yield
cobalt(II) oxide In water Kinetics; thermostating an acetate buffer soln. in distd. water in a flask open to air or under O2/Ar, addn. of CoO, addn. of thermostated Na2SO3 soln. at 20 - 80°C, stirring this mixture, react. at 30, 35 and 40°C, pH = 4.63; filtration of CoO, pptn. the sulphate ions as BaSO4 for gravimetric estimation or determination by iodometric titration, rate depending on buffer soln., CoO, SO3(2-) and O2 concentration, influence of pH and buffer studied;	98%
With sodium acetate; acetic acid; magnesium oxide In water Kinetics; simultaneous addn. of Na2SO3 and catalyst to acetate buffer, stirring at30°C, pH 5.5 and 1600 rpm under N2/O2 atmosphere, iodometric ana l. of unreacted S(IV);
copper(I) oxide In water Kinetics; simultaneous addn. of Na2SO3 and catalyst, stirring at 30°C and 1600 rpm under N2/O2 atmosphere with and without ethanol, iodometric anal. of unreacted S(IV);

hydroxocobalamin hydrochloride + sodium sulfite (7757-83-7) → sulfitocobalamin, sodium salt

Conditions	Yield
With MES buffer In further solvent(s) Na2SO3 soln. (1.3 equiv.) added dropwise to soln. of hydroxycobalamin*HCl in MES buffer (pH 6); reacted at 0°C (ice bath) for 2 h; pptd. by dripping into chilled acetone (-20°C); filtered; washed with acetone and Et2O (-20°C); dried under vac. overnight;	98%

3-oxo-3,4-dihydro-2H-pyrido[3,2-b][1,4]oxazine-6-carbaldehyde (443956-11-4) + sodium sulfite (7757-83-7) → 6-bromo-7-chloro-4H-pyrido[3,2-b][1,4]oxazin-3-one (577691-88-4)

Conditions	Yield
Stage #1: 3-oxo-3,4-dihydro-2H-pyrido[3,2-b][1,4]oxazine-6-carbaldehyde With chlorine In N,N-dimethyl-formamide at 0℃; for 2.75h; Stage #2: sodium sulfite In N,N-dimethyl-formamide at 0 - 15℃; for 0.5h;	98%

benzyl chloride (100-44-7) + sodium sulfite (7757-83-7) → sodium α-toluenesulfonate (57267-76-2)

Conditions	Yield
In not given alkaline media;	97%
In not given alkaline media;	97%
In not given	86%

[3aS-(3aα,4β,6β,7aα)]-2-(3-bromopropyl)-3a,5,5-trimethylhexahydro-4,6-methano-1,3,2-benzodioxaborole + sodium sulfite (7757-83-7) → [3aS-(3aα,4β,6β,7aα)]-2-(3-iodopropyl)-3a,5,5-trimethylhexahydro-4,6-methano-1,3,2-benzodioxaborole

Conditions	Yield
With sodium iodide In water; acetone	95%

hydrogen sulfide (7783-06-4) + sodium hydrogensulfite + sodium sulfite (7757-83-7) → sodium thiosulfate

Conditions	Yield
In water from equimolar amounts of Na2SO3, NaHSO3 and H2S, best react. temp.: 20-40°C;;	95%
In not given byproducts: H2O; adding H2S to solns. of NaHSO3 and Na2SO3 with slightly moving the liquid;; contains traces of sulfite;;
In not given passing H2S in trickle-bed reactor at 70 to 75°C trough solns. of NaHSO3 and Na2SO3;;
In not given byproducts: H2O; adding H2S to solns. of NaHSO3 and Na2SO3 with slightly moving the liquid;; contains traces of sulfite;;

dipotassium peroxodisulfate + sodium sulfite (7757-83-7) → Sulfate (14808-79-8)

Conditions	Yield
oxidation, in 2h , at 50°C;;	95%
oxidation, in 2h , at 50°C;;	95%
With borax; sodium tetraborate; isopropyl alcohol In water Kinetics; components soln. preparation (room temp., isopropyl alcohol as radical acceptor), keeping for 6 min at 60°C; soln. anal.;

sulfur dioxide (7446-09-5) + sodium hydrogensulfite + sodium sulfite (7757-83-7) → sodium dithionite

Conditions	Yield
With sodium amalgam In ethanol reduction with Na-amalgam in presence of an organic base, <40°C, inert atmosphere;; dry product on treatment with dry CO2;;	95%
With sodium amalgam In ethanol reduction with Na-amalgam (0.1-0.2% Na), 0-10°C;;
With sodium amalgam In ethanol reduction;;

aquopentaamminerhodium(III) perchlorate + sodium sulfite (7757-83-7) → trans-Na[Rh(NH3)4(SO3)2]*2H2O

Conditions	Yield
In water heated at 85°C for 1.5 h; cooling to 25°C, pptn. with ethanol, filtration, washing with ethanol then ether, air-drying;	95%

1,4-dioxane (123-91-1) + 1-(4'-methoxy-biphenyl-4-yl)-ethanone (13021-18-6) + sodium sulfite (7757-83-7) → 4'-methoxy-biphenyl-4-carboxylic acid (725-14-4)

Conditions	Yield
With hydrogenchloride; bromine In water	93%

sodium sulfite (7757-83-7) → sodium sulfide

Conditions	Yield
With pyrographite redn. with charcoal at 640 - 800°C for 1 h (max.);	92%
With coal redn. with charcoal at 640 - 800°C for 1 h (max.);	92%
With carbon monoxide at 700 - 900°C;	>99
With CO at 700 - 900°C;	>99

1-bromoacetone (598-31-2) + sodium sulfite (7757-83-7) → α-acetophenonesulfonic acid sodium salt (63738-92-1)

Conditions	Yield
In not given	90%
In not given	90%

cis-dichloro(2,2′-bipyridine)ruthenium(II)chloride + water (7732-18-5) + sodium sulfite (7757-83-7) → Ru(bpy)2(SO3)(H2O) (116663-18-4)

Conditions	Yield
In ethanol for 1h; Reflux; Inert atmosphere;	88%

osmium(VIII) oxide (20816-12-0) + water (7732-18-5) + sodium sulfite (7757-83-7) → Na4[Os2(μ-O)2(SO3)4(H2O)4]*4.5H2O

Conditions	Yield
With sulfuric acid In water aq. soln. of OsO4 mixed at 20°C with equimolar mixt. of Na2SO3 and H2SO4, heated at 50°C for 3 h, pptd.; filtered off, washed (ethanol, acetone), dried (50°C for 2 h, vac.), elem. anal.;	87%

sodium sulfite (7757-83-7) + 2-ethyl-3-methyl-8-vinylquinoline → (+)-2-ethyl-3-methyl-8-[(1S),2-dihydroxyethyl]quinoline

Conditions	Yield
K2OsO2(OH)4 In water; tert-butyl alcohol	86.5%

Ammonium iron sulfate + copper nitrate hemi(pentahydrate) + water (7732-18-5) + sodium hydrogensulfite + sodium sulfite (7757-83-7) → 3Na(1+)*22H2O*2Fe(2+)*3Fe(3+)*2Cu(SO3)4(7-)*O(2-) = Na3(H2O)6[Fe(H2O)6]2[Cu(SO3)4]2[Fe(H2O)]3(O)*H2O

Conditions	Yield
In water Cu(NO3)2*3H2O (0.946 mmol) added to 10 ml of 1.6 M Na2SO3 and 0.5 M NaHSO3; soln. of Fe(NH4)2(SO4)2*6H2O (0.915 mmol) added; kept (several d); collected; washed with H2O; dried in air; elem. anal.;	86%

methyl 2-[7-bromo-2-(methyloxy)-8-quinolinyl]-2-propenoate (944407-53-8) + sodium sulfite (7757-83-7) → methyl 2-[7-bromo-2-(methyloxy)-8-quinolinyl]-2-oxiranecarboxylate (944408-04-2)

Conditions	Yield
With 3-chloro-benzenecarboperoxoic acid In hexane; water; 4-(dicyanomethylene)-2-methyl-6-(p-dimethylaminostyryl)-4H-pyran; ethyl acetate	84%

16H2O*2HO(1-)*Re6Se8(2+) + water (7732-18-5) + sodium sulfite (7757-83-7) → O18Re6S6Se8(10-)*36H2O*10Na(1+)

Conditions	Yield
for 2h; Heating;	84%

16H2O*2HO(1-)*Re6S8(2+) + water (7732-18-5) + sodium sulfite (7757-83-7) → O18Re6S14(10-)*37H2O*10Na(1+)

Conditions	Yield
for 2h; Heating;	82%

trans-{Pt(methylamine)2(NH3)2}Cl2 + sodium sulfite (7757-83-7) → {Pt(methylamine)2(NH3)2}{Pt(methylamine)2(SO3)2}

Conditions	Yield
In water 25°C, equimolar mixt.; sepn. of ppt. after 12 h or evapn. to dryness (room temp.) and dissolving in water and filtered off; washing (EtOH, ether); elem. anal.;	81%

ethyl 2-hydroxypropionate (97-64-3, 2676-33-7) + sodium sulfite (7757-83-7) → 2-oxo-propionic acid ethyl ester (617-35-6)

Conditions	Yield
With dihydrogen peroxide; bromine In dichloromethane; water	80.2%

sodium hydrogensulfite + allyl alcohol (107-18-6) + sodium sulfite (7757-83-7) → sodium 3-hydroxypropanesulphonate (3542-44-7)

Conditions	Yield
In not given byproducts: Na2SO4; in presence of O2, oxidizing agents or salts of heavy metals;	80%
In not given byproducts: Na2SO4; in presence of O2, oxidizing agents or salts of heavy metals;	80%

cis-{Co(en)2(N3)2}NO3 (22651-44-1) + sodium sulfite (7757-83-7) → cis-{Co(en)2(SO3)N3}*1.5H2O + cis-Na{Co(en)2(SO3)2}

Conditions	Yield
In water at 40 °C, well stirred; solution: violet -> orange/brown; after 10 min. addition of ethanol; crystn. after 2 h; washed with ethanol and ether, dried in air; cis-Na{Co(en)2(SO3)2} was removed by filtration of the saturated soln. in warm water and recrystn. by addition of acetone;	A 80% B n/a

tetrakis(acetonitrile)silver(I) hexafluorophosphate (86728-82-7) + diethyl dithiophosphate ammonium salt (1068-22-0) + sodium sulfite (7757-83-7) → [Ag16(SO3){S2P(OEt)2}12]2(PF6)4

Conditions	Yield
Stage #1: tetrakis(acetonitrile)silver(I) hexafluorophosphate; diethyl dithiophosphate ammonium salt at 20℃; for 0.5h; Schlenk technique; Inert atmosphere; Stage #2: sodium sulfite for 1h; Schlenk technique; Inert atmosphere;	79.07%

tetrapyridineplatinum(II) dichloride + sodium sulfite (7757-83-7) → {Pt(pyridine)4}{Pt(pyridine)2(SO3)2}

Conditions	Yield
In water 25°C, equimolar mixt.; sepn. of ppt. after 12 h or evapn. to dryness (room temp.) and dissolving in water and filtered off; washing (EtOH, ether); elem. anal.;	79%

{Pt(ethylamine)4}Cl2 + sodium sulfite (7757-83-7) → {Pt(ethylamine)4}{Pt(ethylamine)2(SO3)2}

Conditions	Yield
In water 25°C, equimolar mixt.; sepn. of ppt. after 12 h or evapn. to dryness (room temp.) and dissolving in water and filtered off; washing (EtOH, ether); elem. anal.;	78%

lead dioxide + sodium sulfite (7757-83-7) → lead(II,IV) oxide + dithionate

Conditions	Yield
In not given heating on water bath;	A n/a B 77.5%
In not given heating on water bath;	A n/a B 77.5%

disodium hydrogenphosphate + 4'-(2-chloro-ethyl)-biphenyl-4-sulfonyl chloride (1021169-62-9) + sodium sulfite (7757-83-7) → sodium 4'-(2-chloroethyl)-4-biphenylsulfinate

Conditions	Yield
With N-benzyl-N,N,N-triethylammonium chloride In water at 37 - 60℃; for 6.26667 - 13.5h; Product distribution / selectivity;	77.1%

Upstream product

• 7446-09-5 sulfur dioxide 
• 7757-82-6 sodium sulfate 
• 20901-21-7 disulfur monoxide 
• 1310-73-2 sodium hydroxide 
• 10028-15-6 ozone 
• 1313-82-2 sodium sulfide 
• 506-68-3 bromocyane 
• 7439-95-4 magnesium 
• 7440-23-5 sodium 
• 12775-96-1 copper 
• 7440-66-6 zinc 
• 773837-37-9 sodium cyanide 
• 7632-00-0 sodium nitrite 
• 10103-60-3 sodium dihydrogen arsenate 

Downstream Products

• 5661-55-2 4-phenylazetidin-2-one 
• 14401-72-0 3',5'-dichloroacetophenone 
• 423-55-2 1-perfluorooctyl bromide 
• 150840-49-6 N-(30-nor-3β-hydroxy-20-oxo-28-lupanoyl)-11-aminoundecanoic acid 
• 157768-90-6 2-[(3-nitrophenyl)methylsulphonyl)benzothiazole 
• 142217-53-6 sodium 7-(2,4,5-Triphenylimidazol-1-yl)heptanesulphonate 
• 141696-96-0 Sodium 6-(1,4,5-triphenylimidazol-2-yloxy)hexanesulphonate 
• 141676-12-2 sodium 7-(1,4,5-triphenylimidazol-2-yloxy)heptanesulphonate 
• 100680-33-9 cefuroxime axetil 
• 81880-96-8 N-[(4-Hydrazinophenyl)methyl]methanesulphonamide, hydrochloride 
• 68485-52-9 4-allylazetidin-2-one 
• 100-02-7 4-nitro-phenol 
• 61627-29-0 5-isopropylsulphonyl-2-propoxybenzamide 

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