The Determination of Unknown Solid Organic Compound by Qualitative Analysis

THE DETERMINATION OF UNKNOWN SOLID ORGANIC COMPOUND BY QUALITATIVE ANALYSIS

By

Ni Luh Gede Enik Karnila Yanti

Chemistry Education Department, Faculty of Mathematics and Natural Sciences, Ganesha University of Education

email: enikkarnilayanti@yahoo.co.id

Abstract

The aim of the experiment was to determine (1) physical properties of unknown solid organic compound, (2) the elements contained in the unknown solid organic compound, (3) the functional groups contained in the unknown solid organic compound, and (4) derivation compound of the unknown solid organic compound. Laboratory assistant prepared the unknown solid organic compound as subjects of the experiment. The object was the structure of the unknown solid organic compound. It was obtained through qualitative analysis are the physical and chemical properties of the unknown solid organic compound. The physical properties of the unknown solid organic compound has melting point of 120⁰C-120.5⁰C. The element analysis of unknown solid organic compound results carbon, hydrogen and oxygen. The functional group and derivative analysis it has unsaturated bond, aromatic structure, positive of phenol group and phenol derivative. The physical and chemical properties of the unknown organic compound were similar to the physical and chemical properties of 2-Naphthol, that means that the unknown sample is definitely 2–naphthol.

Key word: organic compound, qualitative analysis, 2-Naphthol

INTRODUCTION

Chemical compounds are abundant compound in nature and it has many types. To facilitate the studied of its properties required an identification steps. The identification of organic compound can be done with the chemical test especially in the functional groups (Muderawan & Suja, 2008). Qualitative analysis is important to be done for knowing the uknown organic substances, that are physical properties, analysis of element, identification of functional group and determination of derivative (Nurlita & Suja, 2004)

The physical properties for solid organic substance is melting point. Melting point is temperature where solid substances change to liquid substance at one atmosphere. In general melting point of organic substance easy to observe because the temperature when start to melt almost the same when all sample melt (the range of the temperature not more than 0.5⁰C).

To identify the existence of carbon and hydrogen element in organic compounds, can be done by adding copper (II) oxide, the test carbon and oxygen can be continued with testing CO₂ and H₂O. The presence of H₂O can be observed in the presence of water vapor and the test of CO₂ can be seen the turbid was formed.. The reaction is as follows.

C_xH_y + CuOàCu_(s) + H₂O_(g) + CO_2(g)

Detection the existence of oxygen was used ferox reagent. Ferox reagent is prepared by dissolving separately KSCN and FeCl₃, in methanol, and then it were mixed. Then it solution was dropped into filter paper and cause the red color. This paper called ferox paper. Then the substance will be tested oxygen content was dissolved in benzene, hydrocarbons or toluene, after that dropped into ferox paper. If positive of oxygen, ferox paper will changes to bright red color.

Identify the existence of nitrogen, sulfur, and halogen can be done by Lassaigne test. The principle of this test is transforming the elements that bond in the form of covalent bond in organic substance into ionic sodium salt (Nurlita & Suja, 2004). In this reactions, the nitrogen in hydrocarbon turn into dark purple of sodium cyanide, halogen turn into sodium halide, and sulfur turn into sodium sulfide (Anwar, Purwono, Pranowo, & Wahyuningsih, 1994)

Functional groups were very large influence for the properties of organic compounds. Several functional groups that are often found in organic compounds are hydroxyl (-OH), carbonyl (-CO), amino (-NH₂), carboxyl (-COOH), oxo group (-O-), nitro (-NO₂), double bond and triple bond. To identify organic compounds, can be done with a series of test with chemical reactions to determine the functional groups present in organic compounds.

The test can be done to identified double bond in organic compounds are bromine test in CCl₄ and with alkaline KMnO₄ test (Baeyer test). Baeyer test will be positive in the double bond and a triple bond, but it cannot be done on compounds that have aromatic rings. Reaction with KMnO₄ can also occur in compounds that easy to oxidation such as aldehydes, some alcohol, phenol and aromatic amine compounds. Baeyer test was done by adding an alkaline KMnO₄ solution into the sample. Ion MnO^4- will was reduced to MnO₂ so KMnO₄ color fading. The reaction is as follow :

Ethane _{(colorless )} + 2 MnO_4(violet)

+ 4 H₂O à HO-CH₂-CH₂-OH_{(colorless )} + 2 MnO_2(brown) + 2 OH^-

The second test for identified double or triple bond is bromine test. Organic compounds containing unsaturated bonds can cause fading color on bromine solution. This reaction was called addition reactions. The reaction is as follow:

Ethane + Br₂àBr-CH­₂-CH₂-Br

      Colorless   red        colorless

Test of aliphatic or aromatic properties of organic compounds can be done by testing the fumes. If organic compounds are positive of benzene ring (aromatic) the fumes will form when heated. This is because the stability of the benzene rings which makes it difficult to be oxidized. So that when the combustion process (warming) the fumes form because incomplete combustion (difficult oxidized). However, if there is positive of aliphatic organic compound, when heating (combustion) no fumes were formed, because the combustion process is complete.

Phenol is an alcohol, in which the-OH functional group bond to the benzene ring. The formula of phenol is C₆H₅-OH in form of pure colorless crystalline, odorless (carbolic acid), antiseptic, little soluble in water and as a weak acid (weaker than carbonic acid). These compounds can react with bases to form salts, such as NaOH produces Na-phenolic. Identification of phenol can be done by phenol color test by using FeCl3. Where the compound (FeCl₃) is reacted with phenol will produce complexes of green color. The reaction is as follows:

6 C₆H₅-OH + FeCl₃ à (Fe(OC₆H₅)₆)^3- + 3 Cl^- + 6H⁺

Aldehydes group (R-CHO) can be identified through Tollens Test. The reactions occur is as follows:

RCHO + 2Ag(NH₃)₂⁺ + 2HO^- →2Ag_{(silver mirror)} + RCOO^- + H₂O + NH₄⁺ +NH₃

.Ketone group (R-CO-R) can be identified through DNP and Iodoform Test. The reactions occur in DNP test is as follows:

Carboxyl group (R-COOH) can be identified through sodium bicarbonate and ester formation test. The reactions occur in Ester formation test is as follows:

    RCOOH + R’OH  RCOOR’ + H₂O

METHOD

Equipments and Materials

Experiment was done at organic chemistry laboratory Ganesha University of Education. This experiment need time approximately 24 hours to finish all steps. To conduct the experiment need some equipments and materials. The equipment used are a capillary pipette, two spatula, three watch glass, a metal block, a thermometer, three 100 mL beaker glass, six test tube and a rack, a non pyrex test tube, a graduated cylinder, a Erlenmeyer, a funnel, three drop pipettes, a stirrer road, a holder, a spirits burner, heater, a electrical balance, and a box of matches. While the materials was used are solid of unknown sample, powder of dry copper oxide, KSCN solid, FeCl₃ solid, 20 mL methanol, benzene, toluene, small amount of sodium, hydrocarbon, ethanol, 500 mL of distilled water, 2 mL of CH₃COOH solution, two drops of Pb-acetate solution, 5 mL of sodium nitropusid solution, 10 mL FeSO4 solution, 5 mL NaOH solution, concentrated H₂SO₄ solution, 10 mL HNO₃ solution, AgNO₃ solution, NH₄OH solution, limestone, 5 mL CCl­₄ solution, 5 mL fiber-ammonium-nitrate solution, Br₂ solution 5%, 3 drops acetyl chloride solution, strong ammonia solution, 5 drops FeCl₃ solution, 1 mL Fehling A solution (acetate of CuSO₄), 1 mL Fehling B solution (NaOH of Rochelle salt), ammonia solution, diluted HCl solution, I₂ solid, KI solid, 2 mL NaOH, 2 mL 10% NaHCO₃ solution, ethyl alcohol solution, strong H₂SO₄ solution, saturated hydroxylamine hydrochloride solution, KOH solution, nitric acid solution, CaCl₂ solution, dry acetone, benzyl amine solution, NaHCO₃ solution 5%, KBr solid, phenol solution, perchlorate acid solution 60%, ethanol solution 10-20%, 2,4-DNP solid, sodium acetate solid, pyridine solution, carbonyl compound, strong ammonium hydroxide solution, triethylamine solid, ethyl or ester ethyl, NH₄Cl solid, bromine solution, NaHSO₃ liquid solution, filter paper

Determine of Physical Properties

Unknown solid sample was refined by using spatula, then open tip off the capillary pipette was pressed until the sample was down and condensed with height of 0.5 cm. after that the capillary pipette and thermometer were added into appropriate hole in the metal block and heated. The temperature when the sample begins to melt and the temperature when all sample melt were noted.

Analysis of Element

Detection of Carbon and Hydrogen

Unknown solid sample and dry of CuO were mixed, and then it mixture was poured into test tube. The mixture was heated until the all of the mixture change to CO_2­ and H₂O. Existence of CO₂ gas and water vapor that mean the sample is contained of C and H.

Detection of Oxygen

To identify oxygen was used ferox reagent. Ferox reagent was prepared by KSCN and FeCl_3, 1 gram of KSCN in 10 mL of methanol and 1 gram of FeCl₃ in 10 mL of methanol were mixed and the precipitate was filtered (the filtrate consist of complex compound Fe³⁺[Fe(SCN⁶]^3- , that called ferox reagent). After that unknown solid sample was diluted by using benzene. Filter paper that was given by ferox reagent was prepared and dried that called ferox paper. Then sample solution was dropped into ferox paper, the existence of light red color was indicated positive of oxygen.

Detection of Nitrogen, Sulfur and Halogen

Detection the existence of nitrogen, sulfur and halogen was used extract of sodium or Lassage filtrate. Unknown solid sample was placed into test tube and small amount of sodium that was dried by filter paper was added, and then the sample was heated until incandescent to found perfect reaction. After that ethanol was added to remove excess of sodium, next the mixture was heated until produce red color. Then the mixture was dissolved in distilled water with breaking the test tube. The solution was filtrated to get Lassaigne filtrate.

Detection of sulfur element can be done by some process are, 2 mL of sodium extract were acidified by acetic acid and it were heated. Filter paper was added into solution of Pb-acetate 10%, then the filter paper was approximated to the test tube and the change color of filter paper was observed (black color indicated there is sulfur). After that sodium nitropuside was dropped into the rest of filtrate in test tube, (black color indicated there is sulfur).

          The process needed to detection the existence of nitrogen element are, 2 mL of sodium extract were added into FeSO₄ solution (Mohr salt), then it ware heated until boiling. If there was no precipitate, NaOH solution was added and it was heated until form green precipitate. After that the precipitate was cooled and acidified until the precipitate soluble, and then the change occur was obsrerved (if contain of N element will appears blue-green or blue suspension).

          To indentify the existence of halogen there are some steps are, 2 mL of sodium extract were acidified by using concentrated of HNO₃ and it was boiled. After that, the mixture was cooled and 1 mL of AgNO₃ was added. If there is halogen, white precipitate or yellowish precipitate will form. The last, precipitate was diluted by NaOH to determine the existence of halogen.

Detection of Functional Group

Detection of Unsaturated

To detection the unsaturated was used two method are Baeyer test and bromine test. In Baeyer test unknown solid sample was diluted by using water, then Baeyer solution (KMnO4 solution) was added drop by drop, and it was shake. If the color of KMnO4 was fades that mean sample in positive consist of unsaturated bond. The second method is bromine test, unknown solid sample was diluted by using CCl₄ and 5% Br₂ solution in CCl₄ was added by drop by drop. If brown colors change to colorless that mean positive of unsaturated bond.

Detection of Aliphatic or Aromatic

Unknown solid sample was taken in the spatula, and then it was heated in flame. If produce fumes that mean consist of aromatic compound.

Detection of Hydroxyl Group

Detection of hydroxyl group can be done by two method are fiber test and acetyl chloride test. In fiber test, unknown solid sample was added by fiber solution (ammonium nitrate), if there is red color form that mean positive of hydroxyl group. While in acetyl chloride test, unknown solid sample was added by two drops of acetyl chloride, if there is gas produce that mean positive of hydroxyl group.

Detection of Phenol Group

Unknown solid sample was diluted by using alcohol then FeCl₃ was added drop by drop. If the colors change to purple, blue and green that means positive consist of phenol group.

Detection of Adehyde Group

Detection of aldehyde group can be done by two method are Fehling test and Tollen test. In Fehling test, one mL of Fehling A and Fehling B was added into the sample, and it mixture were heated. If there was the blue color change to red color that mean the sample consist of aldehyde group. While in Tollen test, mixture of AgNO3, NaOH, and excess of ammonia (until all of precipitate was dissolved) was added into the unknown solid sample then it were heated. If there is white precipitate form that mean the sample consist of aldehyde group.

Detection of Ketone Group

Detection of ketone group also use two methods are DNP test and iodoform test. In DNP test, dilute HCl was added into the unknown solid sample and then 2,4-dinitrophenilhydrazine was added. After that, the mixture was shaked, if the precipitate was form that means the sample positive of ketone group. While in iodoform test, 2 mL of solution of NaOH 10% was added into the sample. After that, iodine solution in KI were added drop by drop into the mixture, if the brown color change to colorless color that mean positive of ketone group.

Detection of Carboxyl Group

Detection of carboxyl group can be done by two method are Na-bicarbonate test and formation of ester test. In Na-bicarbonate test, saturated solution of NaHCO₃ was added into the sample, if there is bubble that mean positive of carboxyl group. While in formation of ester test, ethyl alcohol and concentrated sulfuric acid were added into the sample, and then it was heated. If there is fragrant smell was form that mean positive of carboxyl group

Making Derivate of Compound from the Substance that will be Analysis

Derivative of Phenol

2.5 gram of KBr and 0.5 mL of bromine were mixed and it was diluted by using 15 mL of water. After that, phenol solution was prepared and the mixture between KBr and bromine was added until the color change to yellowish color. Phenol precipitate was stirred in 25 ml of cold water, and then it was filtered and washed by NaHSO₃. Then it was recrystallization wit ethanol, and the melting point was noted.

Data that was obtained was gathered to identify the type of organic compound in unknown solid sample. The identification was done by comparing the experiment result with organic chemistry references.

RESULT AND DISCUSSION             

The physical properties especially the melting point of the unknown solid sample is 120⁰C-120.5⁰C. The result of element analysis was presented in the table 1 bellow

Detection of C and H element of unknown solid organic compound water vapor and CO₂ gas was produced when the sample heated. The detection of O element bright red color was produced in the ferox paper. In addition, in detection of sulfur element, there is no black color was produced, in detection of nitrogen no yellow color was produced, and in detection of halogen, no precipitate was formed.

            While, unsaturated detection of unknown solid sample was positive because the sample turned from the violet color of KMnO₄ into colorless in Baeyer test and turned the solution into colorless in bromine test. In aromatic and aliphatic test, it was produced fume so that indicate the aromatic compound.

The result of functional group analysis was presented in the table 2 bellow

Table 2. Result of Functional group Detection

Functional Group	Identification
Hydroxyl Group	Negative
Phenol  Group	Positive
Aldehyde Group	Negative
Ketone Group	Negative
Carboxyl Group	Negative

Functional group detection of unknown solid sample positive consists of phenol group, because the sample solution was produced green color when FeCl₃ was dropped. This is possible since the compound is aromatic. The picture of green color produced as follow

The physical and chemical properties of this unknown solid compound is identical with 2–naphthol. Tokyo Chemical Industry Ltd states that the melting point of 2–naphthol is 121⁰C while Alfa Aesar states 120⁰C-124⁰C. This compound is brown solid at room temperature and has structure as follow

The melting point of solid unknown sample and 2–naphthol was identical. They have brown colour solid and the elements are the same. They have unsaturated bond and are aromatic. While, the sample is also has phenol group. This means that the unknown sample is definitely 2–naphthol.

    

The last experiment was identifying the derivatives of unknown solid organic compound. The derivative as result of this experiment has melting point of 109 – 110^oC and is brown solid at room temperature.

CONCLUSION

Based on the analysis, the unknown solid organic compound is 2–naphthol.

ACKNOWLEDGMENT

Firstly, writer is grateful to the God, for the unlimited knowledge was created. Then, thanks for lecture Mr. I Nyoman Tika, M.Si who teach Organic Experiment subject. Thank for the laboratory assistant, Mr. Lasia who guides the writer in conducting experiment and give information how to work safely. Also thanks, the lecture assistant, Mrs. Dewi who guides the writer in conducting experiment. Moreover, the last for all members of VA class who give great motivation to the writer.

REFERENCES

Anwar, C., Purwono, B., Pranowo, H. D., & Wahyuningsih, T. D. (1994). Pengantar Praktikum Organik. Yogyakarta: Departement Pendidikan dan Kebudayaan.

L.G. Wade, J. (2010). Organic Chemistry. Upper Saddle River: Pearson Eduation, Inc.

Muderawan, I Wayan dan I Wayan Suja. 2008. Praktikum Kimia Organik. Singaraja :Universitas Pendidikan Ganesha

Nurlita,Frieda dan I Wayan Suja.2004.Buku Ajar Praktikum Kimia Organik.Singaraja : IKIP Negeri Singaraja

Anonymous. Accessed at 16^th September 2013 from http://www.chemspider.com/Chemical-Structure.8341.html

Anonymous. Accessed at 16^th September 2013 from http://www.sigmaaldrich.com/catalog/product/aldrich/185507?lang=en&region=ID