#IPLaw #Brexit – News about Brexit and intellectual property rights

While objections to the BREXIT are raised with articles in the news, let’s review its impact on intellectual property rights.

There is much debate about the possibility for UK IP attorneys to represent their clients before the European Intellectual Property Office (EUIPO). This would represent an estimated turnover between 789 million and 1.7 billion pounds.

Even in the government, BREXIT is not unanimous. After his predecessor Jo Johnson in January 2018, the UK minister of science, research, invovation and intellectual property, Sam Gyimah resigned from Prime Minister Theresa May.

For now, the entry into force is scheduled for March 29, 2019.

For the record, as already explained in this blog (link), BREXIT will have no impact on classical European patents. Let us recall here that Switzerland and Turkey are parties to the European Patent Convention. A mechanism similar to the Euro-Turkish patent and the Euro-Swiss patent will probably be applied for the United Kingdom.

As far as the trademarks and Designs of the European Union are concerned, the rights specifically cover the EU, thus a solution has to be found for these rights after BREXIT. The solution has been detailed in this blog (link) and essentially consists in generating a UK IP right corresponding to the EU IP right without additional examination.

To follow closely …

Of course, SOTERYAH IP assists you in maintaining your UK and EU rights after the entry into force of BREXIT.


#homage #IPDistinctions – Afred NOBEL and women’s awards at NOBEL 2018

Today, there is no need to present the Nobel Prize, which is undoubtedly a reward of international significance. The prize was awarded for the first time in 1901, and aims to reward people who, through their inventions, discoveries and improvements, or their work for peace, have “brought the greatest benefit to humanity”.

Alfred NOBEL was born on October 21, 1833 in stockolm and died on December 10, 1896 in Italy. He was a chimistre and a weapons manufacturer by his armament company Bofors. Alfred NOBEL has filed more than 350 patents. The chemical element Nobelium has been named in his honor.

Alfred NOBEL was born to a family of engineers. His grandfather Olof RUDBECK (1630-1702) was one of the most famous Swedish scientists of the seventeenth century. His father Immanuel NOBEL was a Swedish engineer, architect and businessman who sold many inventions. He invented the plywood and made many inventions in the armament. These last inventions did not imply much success in Sweden, of peaceful tradition. As a result, the NOBEL family moved to Russia in 1838. Immanuel NOBEL founded a marine mining company, which will be taken over by Ludvig NOBEL, Alfred NOBEL’s brother.

At 18 years old Alfred NOBEL went to study Chemistry in the United States for 4 years and in Paris for 1 year. In a context where gunpowder remained the only powerful explosive for a long time, the discovery of nitrocellulose in 1846, followed by nitroglycerin in 1847 stimulated research. Back in Sweden, Alfred NOBEL devoted himself in 1862 to the study of a safe use of nitroglycerine. He founded the company KemaNobel (later AkzoNobel), and faced several failures resulting in several explosions some fesant deaths.

After several years Alfred NOBEL succeeded in making the use of nitroglycerine less dangerous and in controlling its power. He accidentally discovers that the mixture of nitroglycerin with an inert and absorbent solid, Kieselguhr (diatomaceous earth) gives good results. Transport is thus facilitated because the explosion requires the use of a detonator. The Nobel detonator and patented in 1865, dynamite is patented in 1867.

He also has a French laboratory where he invented, by chance, another explosive more practical than dynamite, ie: dynamite gum or “dynamite extra Nobel” or gelignite (blasting gelatin), composed of nitroglycerine (93%) and collodion ( 7%).

He acquired many properties including the old castle of Sevran in Seine-et-Oise (currently Seine-Saint-Denis) and the castle called “La Maison du Fayet”, a typical house of the eighteenth century.

Before the end of his life, he moved to Sanremo in Italy.

It was as a result of an erroneous publication of an anticipated obituary of a French newspaper mentioning “The merchant of death is dead.” Dr. Alfred Nobel, who made a fortune by finding a way to kill more people faster than ever before, died yesterday “, which pushed him to leave a better image to posterity.

In his will, Alfred NOBEL bequeaths almost all of his fortune for the creation of a fund whose interests will be redistributed “to those who over the past year have returned to humanity the greatest services” in five different areas: peace or diplomacy, literature, chemistry, physiology or medicine, and physics. This is how the Nobel Prize was born. The fortune left is 31.5 million Swedish krona of the time, which is estimated at 179 million euros.

The 2018 edition was held today.
The prize was given to illustrious scientists such as Wilhelm Röntgen (Physics 1901); Hendrik Lorentz (Physics 1902); Henri Becquerel, Pierre and Marie Curie (Physics 1903), Ivan Pavlov (Medicine 1904); Johannes Diderik van der Waals (Physics 1910); Albert Einstein (Physics 1921) Niels Bohr (Physics 1922) …
The Nobel Peace Prize was awarded to Martin Luther KING (1964) and Nelson MANDELA (1993)

The 2018 edition wants to honor women by giving them 3 prizes:

Donna Strickland for having revolutionized laser technology. Prize is shared with Arthur Ashkin and Gérard Mourou (former teacher of Donna Strickland).
Dona Strickland and Gérard Mourou have developed a “method of generating ultra-short and high intensity optical pulses”. According to the Academy, the three scientists have revolutionized the physics of lasers so that they can reaakize extremely small objects and incredibly fast processes. The possibilities are numerous in precision instruments in research and industrial and medical applications.

Frances Arnold is Laureate of the Nobel Prize in Chemistry for her directed evolution methods for creating useful biological systems, including enzymes, metabolic pathways, genetic regulatory circuits, organisms, and directed evolution.

Nadia Murad who is an Iraqi human rights activist, goodwill ambassador of the United Nations for the dignity of victims of human trafficking.
She is awarded the Nobel Peace Prize with Denis Mukwege for their efforts to end the use of sexual violence as a weapon of war.

Inventing and discovering is bestowing substance to posterity.


#IPBday – The kevlar patent is over 50 years old!

Stephanie KWOLEK, the inventor of the kevlar, symbolizes women in the post-war scientific community having to make considerable efforts in comparison with her (male) peers, having to leave the lot significantly to be kept in office.

Born in New Kensington, Pennsylvania, in 1923, from Polish parents in the United States, Stephanie KWOLEK early became much interested in science and medicine. She graduated in chemistry at Carnegie Mellon University near Pittsburgh in 1946.

She will take up a position in research at DuPont’s textile fiber laboratory in Buffalo, New York, orriginally to finance her studies. In such an environment, she provided considerable effort and determination to try not to lose her job as it was for women in men’s work environments in post-war America. She was then hired at DuPont Pioneering Research Laboratory in Wilmington, Delaware.

As is often the case, the invention of Kevlar was a happy coincidence. Stéphanie KWOLEK was working on tire reinforcing fibers, with tests on strands of carbon-based molecules to be polymerized. She got a thin, opaque liquid while she was expecting a limpid, syrupy liquid.

Her colleagues were convinced that it is unlikely that this polymer can be transformed into fibers, but Stéphanie KWOLEK maintains her determination and persuades another scientist to spin the liquid through a laboratory “spinneret”. This type of machine makes it possible to eliminate the liquid solvent to obtain fibers. It was a success.

Kevlar is essentially a super fiber that is 5 times stronger than steel and much lighter. It is still used today in the aeropace as well as construction of aircraft and bulletproof vests. This material has saved the lives of many people

This shows that determination in Research or R&D can lead to scientific breakthroughs.