I'm Arne Tiselius! I'm from Stockholm, Sweden, but after my mathematician father died of a heart attack, my family and I moved to Gothenburg so that my father's family could help us out. There, I graduated high school.
Svedberg Lab
After high school, I moved to Uppsala to complete my studies. Then, I started working at The Svedberg Laboratory.
While working in the lab,I published many papers about topics involving diffusion and absorption in natural base-exchanging zeolites, and I continued to study these topics when I spent a year at H.S. Taylor's lab in Princeton
Inspired by the American biochemists and physical chemists from Princeton, I returned to Uppsala and developed electrophoresis!
Electrophoresis works because the different molecules in the solution travel along the electric field at different speeds depending on the charge's strength. My new method is used in chemical analysis, the study of serum proteins, and in solving biochemical problems.
Also, while leading the University of Uppsala's Institute of Biochemistry, I helped the institute develop and improve chromatography, phase partition, gel filtration, and other biochemistry techniques.
Additionally, after WWII, I worked a lot to reorganize scientific research in Sweden; I've served as a Chairman of the Swedish Natural Science Research Council, Chairman of the Research Committee of the Swedish Cancer Society, President of the International Union of Pure and Applied Chemistry, Vice President of the Nobel Foundation, President of the Nobel Foundation, and a member of the Nobel Committee for Chemistry!
I'm Arne Tiselius! I'm from Stockholm, Sweden, but after my mathematician father died of a heart attack, my family and I moved to Gothenburg so that my father's family could help us out. There, I graduated high school.
Svedberg Lab
After high school, I moved to Uppsala to complete my studies. Then, I started working at The Svedberg Laboratory.
While working in the lab,I published many papers about topics involving diffusion and absorption in natural base-exchanging zeolites, and I continued to study these topics when I spent a year at H.S. Taylor's lab in Princeton
Inspired by the American biochemists and physical chemists from Princeton, I returned to Uppsala and developed electrophoresis!
Electrophoresis works because the different molecules in the solution travel along the electric field at different speeds depending on the charge's strength. My new method is used in chemical analysis, the study of serum proteins, and in solving biochemical problems.
Also, while leading the University of Uppsala's Institute of Biochemistry, I helped the institute develop and improve chromatography, phase partition, gel filtration, and other biochemistry techniques.
Additionally, after WWII, I worked a lot to reorganize scientific research in Sweden; I've served as a Chairman of the Swedish Natural Science Research Council, Chairman of the Research Committee of the Swedish Cancer Society, President of the International Union of Pure and Applied Chemistry, Vice President of the Nobel Foundation, President of the Nobel Foundation, and a member of the Nobel Committee for Chemistry!
I'm Arne Tiselius! I'm from Stockholm, Sweden, but after my mathematician father died of a heart attack, my family and I moved to Gothenburg so that my father's family could help us out. There, I graduated high school.
Svedberg Lab
After high school, I moved to Uppsala to complete my studies. Then, I started working at The Svedberg Laboratory.
While working in the lab,I published many papers about topics involving diffusion and absorption in natural base-exchanging zeolites, and I continued to study these topics when I spent a year at H.S. Taylor's lab in Princeton
Inspired by the American biochemists and physical chemists from Princeton, I returned to Uppsala and developed electrophoresis!
Electrophoresis works because the different molecules in the solution travel along the electric field at different speeds depending on the charge's strength. My new method is used in chemical analysis, the study of serum proteins, and in solving biochemical problems.
Also, while leading the University of Uppsala's Institute of Biochemistry, I helped the institute develop and improve chromatography, phase partition, gel filtration, and other biochemistry techniques.
Additionally, after WWII, I worked a lot to reorganize scientific research in Sweden; I've served as a Chairman of the Swedish Natural Science Research Council, Chairman of the Research Committee of the Swedish Cancer Society, President of the International Union of Pure and Applied Chemistry, Vice President of the Nobel Foundation, President of the Nobel Foundation, and a member of the Nobel Committee for Chemistry!
I'm Arne Tiselius! I'm from Stockholm, Sweden, but after my mathematician father died of a heart attack, my family and I moved to Gothenburg so that my father's family could help us out. There, I graduated high school.
Svedberg Lab
After high school, I moved to Uppsala to complete my studies. Then, I started working at The Svedberg Laboratory.
While working in the lab,I published many papers about topics involving diffusion and absorption in natural base-exchanging zeolites, and I continued to study these topics when I spent a year at H.S. Taylor's lab in Princeton
Inspired by the American biochemists and physical chemists from Princeton, I returned to Uppsala and developed electrophoresis!
Electrophoresis works because the different molecules in the solution travel along the electric field at different speeds depending on the charge's strength. My new method is used in chemical analysis, the study of serum proteins, and in solving biochemical problems.
Also, while leading the University of Uppsala's Institute of Biochemistry, I helped the institute develop and improve chromatography, phase partition, gel filtration, and other biochemistry techniques.
Additionally, after WWII, I worked a lot to reorganize scientific research in Sweden; I've served as a Chairman of the Swedish Natural Science Research Council, Chairman of the Research Committee of the Swedish Cancer Society, President of the International Union of Pure and Applied Chemistry, Vice President of the Nobel Foundation, President of the Nobel Foundation, and a member of the Nobel Committee for Chemistry!
I'm Arne Tiselius! I'm from Stockholm, Sweden, but after my mathematician father died of a heart attack, my family and I moved to Gothenburg so that my father's family could help us out. There, I graduated high school.
Svedberg Lab
After high school, I moved to Uppsala to complete my studies. Then, I started working at The Svedberg Laboratory.
While working in the lab,I published many papers about topics involving diffusion and absorption in natural base-exchanging zeolites, and I continued to study these topics when I spent a year at H.S. Taylor's lab in Princeton
Inspired by the American biochemists and physical chemists from Princeton, I returned to Uppsala and developed electrophoresis!
Electrophoresis works because the different molecules in the solution travel along the electric field at different speeds depending on the charge's strength. My new method is used in chemical analysis, the study of serum proteins, and in solving biochemical problems.
Also, while leading the University of Uppsala's Institute of Biochemistry, I helped the institute develop and improve chromatography, phase partition, gel filtration, and other biochemistry techniques.
Additionally, after WWII, I worked a lot to reorganize scientific research in Sweden; I've served as a Chairman of the Swedish Natural Science Research Council, Chairman of the Research Committee of the Swedish Cancer Society, President of the International Union of Pure and Applied Chemistry, Vice President of the Nobel Foundation, President of the Nobel Foundation, and a member of the Nobel Committee for Chemistry!
I'm Arne Tiselius! I'm from Stockholm, Sweden, but after my mathematician father died of a heart attack, my family and I moved to Gothenburg so that my father's family could help us out. There, I graduated high school.
Svedberg Lab
After high school, I moved to Uppsala to complete my studies. Then, I started working at The Svedberg Laboratory.
While working in the lab,I published many papers about topics involving diffusion and absorption in natural base-exchanging zeolites, and I continued to study these topics when I spent a year at H.S. Taylor's lab in Princeton
Inspired by the American biochemists and physical chemists from Princeton, I returned to Uppsala and developed electrophoresis!
Electrophoresis works because the different molecules in the solution travel along the electric field at different speeds depending on the charge's strength. My new method is used in chemical analysis, the study of serum proteins, and in solving biochemical problems.
Also, while leading the University of Uppsala's Institute of Biochemistry, I helped the institute develop and improve chromatography, phase partition, gel filtration, and other biochemistry techniques.
Additionally, after WWII, I worked a lot to reorganize scientific research in Sweden; I've served as a Chairman of the Swedish Natural Science Research Council, Chairman of the Research Committee of the Swedish Cancer Society, President of the International Union of Pure and Applied Chemistry, Vice President of the Nobel Foundation, President of the Nobel Foundation, and a member of the Nobel Committee for Chemistry!
I'm Arne Tiselius! I'm from Stockholm, Sweden, but after my mathematician father died of a heart attack, my family and I moved to Gothenburg so that my father's family could help us out. There, I graduated high school.
Svedberg Lab
After high school, I moved to Uppsala to complete my studies. Then, I started working at The Svedberg Laboratory.
While working in the lab,I published many papers about topics involving diffusion and absorption in natural base-exchanging zeolites, and I continued to study these topics when I spent a year at H.S. Taylor's lab in Princeton
Inspired by the American biochemists and physical chemists from Princeton, I returned to Uppsala and developed electrophoresis!
Electrophoresis works because the different molecules in the solution travel along the electric field at different speeds depending on the charge's strength. My new method is used in chemical analysis, the study of serum proteins, and in solving biochemical problems.
Also, while leading the University of Uppsala's Institute of Biochemistry, I helped the institute develop and improve chromatography, phase partition, gel filtration, and other biochemistry techniques.
Additionally, after WWII, I worked a lot to reorganize scientific research in Sweden; I've served as a Chairman of the Swedish Natural Science Research Council, Chairman of the Research Committee of the Swedish Cancer Society, President of the International Union of Pure and Applied Chemistry, Vice President of the Nobel Foundation, President of the Nobel Foundation, and a member of the Nobel Committee for Chemistry!