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CHINA-SCIENTISTS-SYNTHESIZING HEXOSES FROM CO2-ACHIEVEMENT (CN)

(230817) -- TIANJIN, Aug. 17, 2023 (Xinhua) -- This photo taken on Aug. 13, 2023 shows a solution sample of artificial synthesis of hexoses at the Tianjin Institute of Industrial Biotechnology under the Chinese Academy of Sciences in Tianjin, north China. Chinese scientists have developed an artificial method of synthesizing hexoses from carbon dioxide (CO2) in a laboratory environment -- a key step in the global development of synthetic sugar. (Xinhua/Sun Fanyue)

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CHINA-SCIENTISTS-SYNTHESIZING HEXOSES FROM CO2-ACHIEVEMENT (CN)

(230817) -- TIANJIN, Aug. 17, 2023 (Xinhua) -- This photo taken on Aug. 13, 2023 shows a solution sample of artificial synthesis of hexoses at the Tianjin Institute of Industrial Biotechnology under the Chinese Academy of Sciences in Tianjin, north China. Chinese scientists have developed an artificial method of synthesizing hexoses from carbon dioxide (CO2) in a laboratory environment -- a key step in the global development of synthetic sugar. (Xinhua/Sun Fanyue)

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CHINA-SCIENTISTS-SYNTHESIZING HEXOSES FROM CO2-ACHIEVEMENT (CN)

(230817) -- TIANJIN, Aug. 17, 2023 (Xinhua) -- Associate researcher Yang Jiangang (L) communicates with Dr. Song Wan at a laboratory of the Tianjin Institute of Industrial Biotechnology under the Chinese Academy of Sciences in Tianjin, north China, Aug. 13, 2023. Chinese scientists have developed an artificial method of synthesizing hexoses from carbon dioxide (CO2) in a laboratory environment -- a key step in the global development of synthetic sugar. (Xinhua/Jin Liwang)

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CHINA-SCIENTISTS-SYNTHESIZING HEXOSES FROM CO2-ACHIEVEMENT (CN)

(230817) -- TIANJIN, Aug. 17, 2023 (Xinhua) -- Associate researcher Yang Jiangang carries out an experiment at a laboratory of the Tianjin Institute of Industrial Biotechnology under the Chinese Academy of Sciences in Tianjin, north China, Aug. 13, 2023. Chinese scientists have developed an artificial method of synthesizing hexoses from carbon dioxide (CO2) in a laboratory environment -- a key step in the global development of synthetic sugar. (Xinhua/Jin Liwang)

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CHINA-SCIENTISTS-SYNTHESIZING HEXOSES FROM CO2-ACHIEVEMENT (CN)

(230817) -- TIANJIN, Aug. 17, 2023 (Xinhua) -- Dr. Song Wan carries out an experiment at a laboratory of the Tianjin Institute of Industrial Biotechnology under the Chinese Academy of Sciences in Tianjin, north China, Aug. 13, 2023. Chinese scientists have developed an artificial method of synthesizing hexoses from carbon dioxide (CO2) in a laboratory environment -- a key step in the global development of synthetic sugar. (Xinhua/Sun Fanyue)

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CHINA-SCIENTISTS-SYNTHESIZING HEXOSES FROM CO2-ACHIEVEMENT (CN)

(230817) -- TIANJIN, Aug. 17, 2023 (Xinhua) -- Associate researcher Yang Jiangang carries out an experiment at a laboratory of the Tianjin Institute of Industrial Biotechnology under the Chinese Academy of Sciences in Tianjin, north China, Aug. 13, 2023. Chinese scientists have developed an artificial method of synthesizing hexoses from carbon dioxide (CO2) in a laboratory environment -- a key step in the global development of synthetic sugar. (Xinhua/Jin Liwang)

E

CHINA-SCIENTISTS-SYNTHESIZING HEXOSES FROM CO2-ACHIEVEMENT (CN)

(230817) -- TIANJIN, Aug. 17, 2023 (Xinhua) -- Associate researcher Yang Jiangang carries out an experiment at a laboratory of the Tianjin Institute of Industrial Biotechnology under the Chinese Academy of Sciences in Tianjin, north China, Aug. 13, 2023. Chinese scientists have developed an artificial method of synthesizing hexoses from carbon dioxide (CO2) in a laboratory environment -- a key step in the global development of synthetic sugar. (Xinhua/Jin Liwang)

E

CHINA-SCIENTISTS-SYNTHESIZING HEXOSES FROM CO2-ACHIEVEMENT (CN)

(230817) -- TIANJIN, Aug. 17, 2023 (Xinhua) -- Scientists carry out experiments at a laboratory of the Tianjin Institute of Industrial Biotechnology under the Chinese Academy of Sciences in Tianjin, north China, Aug. 13, 2023. Chinese scientists have developed an artificial method of synthesizing hexoses from carbon dioxide (CO2) in a laboratory environment -- a key step in the global development of synthetic sugar. (Xinhua/Sun Fanyue)

E

CHINA-SCIENTISTS-SYNTHESIZING HEXOSES FROM CO2-ACHIEVEMENT (CN)

(230817) -- TIANJIN, Aug. 17, 2023 (Xinhua) -- Scientists pose for a group photo at a laboratory of the Tianjin Institute of Industrial Biotechnology under the Chinese Academy of Sciences in Tianjin, north China, Aug. 13, 2023. Chinese scientists have developed an artificial method of synthesizing hexoses from carbon dioxide (CO2) in a laboratory environment -- a key step in the global development of synthetic sugar. (Xinhua/Jin Liwang)

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Chinese scientists achieve de novo artificial synthesis of hexoses from CO2

STORY: Chinese scientists achieve de novo artificial synthesis of hexoses from CO2 DATELINE: Aug. 17, 2023 LENGTH: 00:01:07 LOCATION: TIANJIN, China CATEGORY: SCIENCE/TECHNOLOGY SHOTLIST: 1. various of Chinese Academy of Sciences and scientists 2. various of industrial projects STORYLINE: Chinese scientists have developed an artificial method of synthesizing hexoses from carbon dioxide (CO2) in a laboratory environment -- a key step in the global development of synthetic sugar. The study that resulted in this new method was conducted by the Tianjin Institute of Industrial Biotechnology and the Dalian Institute of Chemical Physics, both of which are under the umbrella of the Chinese Academy of Sciences. The results were published on the website of the journal Science Bulletin on Wednesday. The team said that developing artificial "CO2-sugar" platforms is meaningful to addressing challenges that land scarcity and climate change pose to the supply of dietary sugar. "We present a versatile chemoenzyma