Muhammad Qudrat-i-Khuda

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Muhammad Qudrat-i-Khuda (c. 1900 – 3 November 1977) was a Bangladeshi organic chemist,

educationist and writer.He founded the Bangladesh Council of Scientific and Industrial Research. From 1969 till 1972, he served as the president of the Pakistan Academy of Sciences. After the independence of Bangladesh, as a chairman of the National Education Commission, he published a report named Qudrat-i-Khuda Education Commission Report.
Born in Margram village of Birbhum district in Bengal Presidency, Qudrat received his early education from the Margram ME High School and Calcutta Woodburn ME School. He passed the matriculation examination from Calcutta Madrasa in 1918 in the first division. In 1924, he obtained the MSc degree in chemistry standing first in first class, from Kolkata Presidency College and was awarded a gold medal for his performance. He received a Premchand Roychand studentship for higher research in chemistry at Calcutta University. He obtained the Doctor of Science in 1929 from London University for his research entitled Stainless Configuration of Multiplanmet Ring.

Qudrat began his career as a lecturer in chemistry at Presidency College in 1931 and was promoted to head of the department in 1936. From 1942 to 1944, he served as the principal of Islamia College in Calcutta. He returned to Presidency College in 1946, becoming the principal of the college for a brief period in 1947. At the same time, he was a fellow and a member of the senate of Calcutta University. After the partition of India, he came to East Bengal (Bangladesh) in 1947 and served as the first director of Public Instruction of the Government of East Pakistan from 1947 to 1949. In 1949, he was appointed scientific adviser to the Ministry of Defence of the Government of Pakistan. He became the chairman of the Secondary Education Board and served from 1952 to 1955 while serving as faculty member at the Karachi University. He was appointed the first director of the East Regional Laboratories of the Pakistan Council of Scientific and Industrial Research in 1955 and established the laboratories in Dhaka. After retirement from directorship in 1966, he was appointed chairman of the 'Kendriya Bangla Unnayan Board' (Central Board for the Development of Bengali).

Qudrat was appointed a visiting professor of chemistry at University of Dhaka in 1975 and served until his death on 3 November 1977.

Qudrat's field of specialisation was organic chemistry. He conducted research on herbals, jute, salt, charcoal, soil and minerals. He successfully extracted biochemical elements from local trees and plants for medicinal use. Qudrat and his associates patented 18 scientific inventions. Manufacturing of Partex from jute-stick was his greatest scientific achievement. Manufacturing malt vinegar from the juice of sugarcane and molasses, Rayon from jute and jute-sticks, and paper from jute were his other significant scientific innovations.

Qudrat played an important role in popularising Bengali for scientific practices. As such, he wrote a number of books on science and technology in Bengali including Bigganer Saras Kahini (Interesting History of Science), Bigganer Vichitra Kahini (Wonderful History of Science), Bigganer Suchana (Origin of Science), Jaiba Rasayan (Organic Chemistry) in four volumes, Purba Pakistaner Shilpa Sambhabana (Industrial Potentiality of East Pakistan), Paramanu Parichiti (An Introduction to the Atom) and Bigganer Pahela Katha (First Word of Science). Two Bengali science magazines Purogami Biggan (Pioneering Science; 1963) and 'Bigganer Joyjatra' (The Victory of Science; 1972) were published under his auspices. He also wrote some religious books including Pabitra Quraner Puti Kotha O Angari Jaoyara (The Holy Sayings of Quran and Angari Jaoyara).

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Abdus Suttar Khan

Abdus Suttar Khan (c. 1941 – 31 January 2008) was a Bangladeshi scientist. He researched on aerospace for four decades with NASA, United Technology, and Alstom, a French power generation company. Khan invented more than forty different alloys for commercial application in space shuttles, jet engines, train engines and industrial gas turbines.
Khan was born in Khagatua village, PS Nabinagar, Brahmanbaria District, British India (now in Bangladesh). He attended Ratanpur High School and did his intermediate at Comilla Victoria College. After graduating at the top of his class from University of Dhaka with a Bachelor of Science (Honors) in 1962 and master's degree in chemistry in 1963, Khan joined the Chemistry department as a lecturer at the same university.In 1964, he accepted a scholarship to study in Oxford University and received his PhD degree in chemistry in 1968. Following his PhD, Khan returned to the Chemistry department of DU as an associate professor and worked there until 1973. That year, he left Bangladesh to conduct research in the field of materials engineering (alloys) in the United States

During his career, Khan invented more than forty different alloys. These alloys are designed for the use in the area of high temperature, such as blades of gas turbine or jet engines. They are coated with environmentally resistant coatings to provide protection from oxidation and/or corrosion, high temperature (to prevent thermal fatigue), to provide wear resistance etc.

These have been commercially applied in space shuttles, advanced commercial jet engines, and US air force jet engines. These alloys made engines lighter, which enabled the aircraft to fly faster. Khan's work in Switzerland also involved alloys, which increased the speed of train engines and industrial gas turbines.

One of Khan's inventions, high strength nickel based alloys, were used for increased fuel efficiency in F-15 and F-16 fighter engines. Subsequently, these alloys were declared as 21st Century materials for advanced aircraft engines in the Advanced Manufacturing and Materials Magazine (Popular Science, June 1990).

1. Nano-catalysts developed are used for in fuel flow path in advanced jet engines for high mach propulsion
2. Advanced abrasion resistant materials developed are used for increased fuel efficiencies of US AF fighter engines (Proprietary to United Technologies' Pratt & Whitney)
3. Corrosion & fatigue resistant coatings deposited by cathodic arc process is used in advanced commercial in Pratt & Whiney jet engines (Proprietary to United Technologies' Pratt & Whitney)
4. Electrodeposited wear resistant coatings developed is used in advanced GT24/26 industrial gas turbine engines by Alstom, Switzerland (Proprietary to Alstom, Switzerland)
5. Electrodeposited oxidation-corrosion resistant coatings used by Alstom, Switzerland in Alstom Power GT-11 industrial gas turbine engines (Proprietary to Alstom, Switzerland)

   For Khan's outstanding research and its application in aerospace, he received numerous prestigious awards from NASA, the US Air Force, United Technology, and Alstom. In addition to these achievements, Khan was a Chartered Scientist (Professional Scientist) of the Royal Society of Chemistry (Great Britain, 2005), Elected Fellow of the Royal Society of Chemistry (Great Britain, 1996), and a member of the American Society of Metals.

Some of his important awards and recognitions include:

• The "1986 United Technologies Special Award" for contributing the development of high strength nickel based alloys (known as Alloy Y) used for increased fuel efficiency of F-15 & F-16 fighter engines. The Alloy Y was highlighted in Advanced Manufacturing and Materials Magazine (AMM Magazine), 4 August 1986. Subsequently, the Alloy Y was declared as 21st Century Materials for advanced aircraft engines.
• "United Technologies Research Center Award of Excellence" for developing a unique manufacturing process for hydrocarbon catalysis for high-speed aircraft & missile propulsion (1994).
• The hydrocarbon fuel catalyst technology developed under NASA-Air Force contract was declared as enabling technology by NASA and US Air Force in 1992
• "Pratt & Whitney's Special" Award for contribution to development of manufacturing technology for advanced surface protection coatings for use in jet engines (1993)

During his retired life, Khan was conducting research as an honorary professor at the Department of Mechanical Engineering at Florida State University. While researching there, he tried to establish a Center of Excellence in nanomaterials for research in the area of carbon nanotechnology for applications in materials s

cience and biomaterial technology.

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