Synthetic organic chemistry started way back nineteenth century where chemist Friedrich Wohler discovered the production of urea even outside human bodies using inorganic chemicals
He treated silver cyanate with ammonium chloride that resulted in the production of urea. He immediately told his fellow colleague regarding his discovery. He was able to make a synthetic urea through the process of total synthesis that we’ll tackle later on. This was the first time that synthetic organic chemistry was discovered and made a big impact in the society of chemists. Now, they don’t simply analyze existing molecules but they’re synthesizing them as well, producing a different chemical.
Understanding the idea that an inorganic compound is used for living sources is the main purpose of synthetic organic chemistry. If you look for answers and lists of synthetic organic chemicals there are tons. Ever since it started growing chemists just can’t get enough of analyzing and experimenting. There are also different outcomes that happen when chemists synthesize smaller molecules for a rather complex molecules.
Total Synthesis and Semi-synthesis
Now let’s tackle more on the processes that chemicals go through to develop complex molecules as we’ve said earlier we have the total synthesis and other than that is semi-synthesis.
Total synthesis is the process that Friedrich Wohler did for the production of urea. Inorganic compounds are used as starting materials to create a more complex compounds. The results of this have given chemists light in a lot of aspect, they get to see new chemical reactions from the combination of different molecules, they get to check new routes for the synthesis of the targeted molecules – natural products, organic compounds, medicinally important active ingredients. That although these targeted molecules have existing routes it would be of good knowledge to widen the scope of different routes from them.
Semi-synthesis or partial chemical synthesis is a process of complete synthesis where in chemicals from isolated natural sources are used as starting material to produce novel compounds that will later on be tried on to animals to see if there are medicinal properties in it.
In present scenario people who are looking for the best skin-care products and cosmetic manufacturers have peptides as an ingredient at the top of their list
The skin comprises of natural peptides, that contribute to the structural strength of the skin and keep it elastic. But peptides used in skin care which are lab-created work in exactly opposite way i.e. inside out. The strands of amino acids infiltrate the skin to address common skin-care problems, including wrinkles and loosening of skin. The effectiveness of peptides in skin care product quite remarkable and hence they tend to be really expensive.
Types of peptides used in skin care products:
PalmitoylPentapeptide, also named as Matrixyl, and MyristoylPentapeptidearespecific pentapeptides found in skin care products. Collagen and hyaluronic acid are the two natural components of skin that helps to support the skin structure and helps to keep the elasticity of the skin intact loss of which results in wrinkles and sagging skin, the pentapeptide works by stimulating these two natural compounds in skin.
Copper peptides catch up with molecules of copper to carry out their function. The amalgamation of peptide molecule and copper molecules make their way into the deeper layers of the skin. Once they reach inside the epidermal layer of the skin they start stimulating collagen growth and promote skin healing. Since the size of the copper peptide is really small, they are able to penetrate several skin layers inducing extremely high effects, which is why the demand for copper peptide in skin care industry has been on the rise
Neuropeptides perform by successful stimulation of neurotransmitters in the skin, due to which nerve cells in the skin stop interaction and relax. When the skin cells stop communicating it results in smoother and wrinkle free skin.
Since the beginning of synthetic organic chemistry it paved way to chemists to the development and impact for synthetic biology.
In the start of nineteenth century chemist Friedrich Wohler then discovered that he can produce urea without using the production from kidney and excretion via urine in the laboratory, he was then so overjoyed and wrote about this to his fellow colleague. This became a stir-up news for everyone around and yet it progresses as well and built countless molecular structure that have been useful even up until now. Synthetic chemistry organic is still going on since then and producing different kinds of molecular structure for additional chemical reactions or for additional medicinal properties.
What Composes Synthetic Organic Chemistry?
Synthetic organic chemistry is a man-made compound that contains carbon atoms; basically because organic chemicals are deemed organic because of its component, carbon atoms. There are different kind of starting materials for synthetic organic chemistry and it could be inorganic compounds or organic compounds. Organic compounds are those that came from a living source, it could be from humans, from plants, or from animals. While inorganic compounds are those that came from nonliving sources like plastic, rubber, and so on. To make inorganic compounds useful for the use of living source is the idea of synthesizing chemicals.
There are Two Kinds of Synthesis:
Total Synthesis – is the process where in inorganic compounds are the starting materials and they have target molecules that they aim to discover new route for existing ones or for those that doesn’t have routes they’d be able to create a feasible route. They also focus on creating new chemical reaction or chemical reagents.
Semi-Synthesis or Partial Chemical Synthesis – is the process where in they use chemical compounds from organic chemicals to mainly create or produce novel compounds which could have chemical or medical properties that later on be part in the growing pharmaceutical industry as well.
Synthetic Organic Chemistry started out when chemist Friedrich Wohler performed the synthesis of urea in 1828
He excitedly told his former mentor, JonsJakob Berzelius about his new discovery that later on developed the world of organic compound and inorganic compounds. That one synthesis of organic compound led chemists to work on synthesizing different compounds and building-up complex molecules resulting in discovering new route of synthesis for certain targeted molecules that could be medicinally important active ingredients, natural products, or organic products. Synthetic organic chemicals are man-made and contains carbon atoms; since organic compounds are mainly organic because of the carbon atom in its structure.
The Process of Synthetic Organic Chemistry
The processes in doing organic synthetic chemistry involves synthetic analysis and planning. We all know that the process is so much complicated than that but we’ll tackle two ways in choosing starting materials.
Total Synthesis – this uses purely and simple inorganic compounds to create complex molecular structure that results in a completely different compound. This aim is to discover new chemical reactions and chemical reagents. It also aim to find a new route of synthesis for a certain targeted molecule.
Semi-Synthesis or partial chemical synthesis – this uses organic compounds from natural sources as starting material to produce compounds with medicinal properties. Unlike inorganic compounds, organic compounds have higher complexity thus developing compounds that contributes highly in synthetic organic chemistry.
Synthetic Organic Chemistry vs Natural Organic Chemistry
First, let’s describe natural organic chemistry, as the name itself these are the chemicals that can be found in our nature and present in our everyday lives. The synthetic organic chemistry are chemicals produced by man and could be either helpful towards the development of organic chemistry or helpful as alternative to our natural medicines. Both of them have quite a similarity in their properties but they differ as to where it came from.