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ENDAH SASMITA – SATRIO BIMO W
GROUP G6B : HALOALKANA & ELIMINASI
ORGANIC CHEMISTRY ASSIGNMENT
1 . INTRODUCTION1.1. Title (compound name), Commercial name, trivial name1.2 .Uses1.3 Demand/supply national/global
2. A closer look at the chemical structure, 2.1 Show carbon chain, functional group, IUPAC name2.2 Show selective Physical related to its uses and and show the effect of non-covalent interaction and geometry and hybridization2.3 Show chemical reactivity, by drawing lewis structure, formal charge, active site, etc. 2.4 Use the physical/chemical properties to explain how the characteristic of this product and how it work
3. SINTESIS :3.1 Reactant : compare its physical/chemical properties to that of the products.3.2 Reaction mechanism : catalyst, reaction types, electron movement, reaction condition
3. Closing :Future Aspect of the product, Research Development, Environmental consideration
1.1 TITTLE
PROPENA
1.INTODUCTION
1.2. 1.2. UsesUses
Bahan dalam pembuatan plastik, seperti pembungkus makanan kering/snack, sedotan plastik, kantong obat, cup plastik, botol.
1.3. Demand/Suplay1.3. Demand/Suplay
The worldwide consumption of LAS has been estimated at 1.5 to 2 million tons per year
2. A CLOSER LOOK ON THE CHEMICAL STRUCTURE
Functional group :
IUPAC name : PropenaTrivial name : Propilen
2.1. HC chain, functional group, IUPAC NAME
2.2. SELECTIVE PHYSICAL PROPERTIES OF THE PRODUCT
AND AFFECT OF NON-COVALENT INTERACTION show the effect of geometry & hybrization, carbon
length, dipole interaction, hydrogen bond etc.
Compare Natrium Dodecyl sulfonate with ,,,,,,,
tahan panas dengan titik lumer 160 derajat Celcius
Formal charge H = 1 - (0 + ½*2) = 0C = 4 - (0 + ½*8) = 0
2. A CLOSER LOOK ON THE CHEMICAL STRUCTURE
2.3.Lewis structure and Formal charge
SPECIAL CHARACTERISTIC
KARAKTERISTIK EXPLANATION RELATED TO SRUCTURE
Merupakan hidrofob
CARA KERJA PROPILEN MEMBENTUK POLIMER
Reaksi kebanyakan katalis metalosena membutuhkan sebuah ko-katalis untuk pengaktifan. Salah satu ko-katalis yang paling umum digunakan untuk tujuan ini adalah Methylaluminoxane (MAO). Ko-katalis yang lain adalah Al(C2H5)3. Ada sejumlah katalis metalosena yang bisa digunakan untuk polimerisasi propilena. (Sejumlah katalis metalosena dipakai untuk proses industri, sedangkan yang lain tidak, dikarenakan harganya yang tinggi.). Salah satunya yang paling sederhana adalah Cp2MCl2 (M = Zr, Hf). Katalis yang berbeda bisa menghasilkan polimer dengan berat molekul serta sifat yang berbeda. Katalis metalosena sedang diteliti secara aktif.
Katalis metalosena bereaksi dulu dengan ko-katalis. Jika MAO adalah ko-katalisnya, langkah pertama adalah menggantikan satu atom Cl di katalis dengan satu gugus metil dari MAO. Gugus metil di MAO digantikan oleh Cl dari katalis. MAO lalu menghilangkan Cl lainnya dari katalis. Ini membuat katalis bermuatan positif dan rentan terhadap serangan dari propilena. Begitu katalis diaktifkan, ikatan ganda di propena berkoordinasi dengan logamnya katalis. Gugus metil di katalis lalu bermigrasi ke propena, dan ikatan ganda terputus. Hal ini memulai polimerisasi. Begitu metil bermigrasi maka katalis bermuatan positif terbentuk kembali dan propena yang lain berkoordinasi dengan logam. Propena kedua berkoordinasi dan migrasi berlanjut serta sebuah rantai polimer tumbuh dari katalis metalosena
sodium dodecylbenzenesulfonate
benzene + dodecene
dodecylbenzenes + sulfur trioxide
3. SYNTHESIS (WHOLE STEPS)
sulfonaion
Electrofilic aromatic substitution
Alkylation
Acid –base
dodecylbenzenes sulfonic acid + sodium hydroxide
+NaOH
3. SYNTHESIS (acid base reaction)
Acid –base
dodecylbenzenesulfonate
+ SO3+ H2SO4
3. SYNTHESIS (sulfonation step)
H
sulfonaion
REACTION OF SYNTHESIS3.1 SYNTHESIS (SUBSTITUTION STEP)
Electrofilic Aromatic
Substitution
Alkyl + benzena
dodecylbenzenesulfonate
Consider as reactant
3. 2. REACTANTCHEMICAL REACTIVITY
2.3.Lewis structure and Formal charge
REACTION OF SYNTHESIS3.3 REACTION MECHANISM
Electrofilic Aromatic
Substitution
Alkyl + benzena
dodecylbenzenesulfonate
4. CLOSING:
• The early ABS detergents (alkylbenzenesulfonic acid) had an important defect. They contained branched chain molecules that made them biologically “hard”, or nondegradable, which meant that the bacteria in sewage treatment plants did not easily break them down. These were replaced by degradable detergents (linear alkyl sulfonates, LAS).
•Even the biodegradable detergents are not free from faults. In addition to the LAS, which is the cleansing agent, or surfactant, many other substances are added, such as builders, bleaches, conditioners, optical brighteners and enzymes. A builder prevents the formation of insoluble compounds in hard water.
ORCHEM ASSIGNMENT
1 . INTRODUCTION1.1. Title (compound name), chemical structure, IUPAC/trivial name1.2 .uses, national world supply/demand
2. SINTESIS : 2.1 Reactant, product mechanism2.2 Physical/chemical properties comparison of the product and the reactant
2.3 A closer look on the chemical structure (functional group, active site etc.2.4 How it works to support its function/uses
3. Closing :Future Aspect of the product, Research Development, Environmental consideration
1.TITTLE
Polystyrene is a thermoplastic resin that is easily processed. As such it is used in many applications such as disposables, packaging, toys, construction, electronics and house wares.
1. 2.USES 1. 2.USES (KEGUNAAN)(KEGUNAAN)
CD case Disposable polystyrene razor
General-purpose (also referred to as crystal or straight) resin is sold in three common grades: high-heat, medium-flow and high-flow grades.
USES USES (KEGUNAAN)(KEGUNAAN)
made from general purpose polystyrene (GPPS)
What we commonly call styrofoam, is actually the most recognizable form of foam polystyrene packaging.
Styrofoam is the trademark of the Dow Chemical Company, the technical name of the product is extruded polystyrene foam
packing materials, insulation, and foam drink cups.
USESUSES(KEGUNAAN)(KEGUNAAN)
1.3. SUPPLAY/DEMAND1.3. SUPPLAY/DEMAND
In 1996, world production capacity for styrene was near 19.2 million metric tonnes per year
3. STRUCTURAL CHARACTERISTIC
Poly(1-phenylethane-1,2-diyl),
Part of molecule : benzene ring
Functional group : no
Special feature : polymer of hydrocarbon
2. A CLOSER LOOK ON THE CHEMICAL STRUCTURE AND HOW DOES THIS WORK TO SUPPORT ITS FUNCTION/USES
2.1. HC chain, functional group, IUPAC NAME
2.2. Selective Physical properties of the product
and affect of non-covalent interaction
show the effect of carbon length, dipole interaction, hydrogen bond
Compare boiling point of styrene with that of polystyrene to show the effect chain length
Compare boiling point styrene with that of the linier C8’s compound to show the effect of benzene ring
Properties styrene polystyrene
Molecular formula C8H8 ?
Molar mass 104.15 g/mol ?
Appearancecolorless oily
liquidSolid
Density 0.909 g/cm³ 1.05 g/cm3
Melting point -30 °C 240 °C
Effect of chain length
Special CHARACTERISTIC EXPLANATION RELATED TO SRUCTURE
It is hard plastic with limited flexibility.
The existence of benzene branch
It takes a very long time to biodegrade
It does has oxygen containing functional group
Polystyrene is a thermoplastic substance, It is not crystal structure
SPECIAL CHARACTERISTIC
benzene ring
It is hard plastic with limited flexibility.
stacking of aromatic rings (polystyren)
2.2. SPECIAL CHARACTERISTIC
Another reason is that It does not has oxygen containing functional group
It takes a very long time to biodegrade
The reason traditional plastics are not biodegradable is because their long polymer molecules are too large and too tightly bonded together to be broken apart and assimilated by decomposer organisms
2.2. SPECIAL CHARACTERISTIC
Polystyrene is a thermoplastic substance, which is in solid (glassy) state at room temperature, but flows if heated above its glass transition temperature (for molding or extrusion), and becomes solid again when cooled
No cross linking
If there are some cross linking, polimer become thermoset substance
3. SYNTHESIS
Catalyst :boron trifluoride and water.
PS, is an aromatic polymer made from the aromatic monomer styrene, a liquid hydrocarbon that is commercially manufactured from petroleum by the chemical industry.
3. REACTANT Reactivity
2.3.Lewis structure and Formal charge
2.2. REACTION MECHANISM
Show reaction mechanism
4. CLOSING:
Many people are not aware of the harmful effects of Polystyrene, This article aims to highlight some of the dangers, both to our health and to the environment.
It takes at least 500 years to decompose
Polystyrene food containers leach the toxin Styrene when they come into contact with warm food or drink, alcohol, oils and acidic foods causing human contamination and pose a health risk to people
Do not microwave food in Polystyrene containers
REFERENSI . . .
• http://en.wikipedia.org/wiki/Polystyrene