基本介紹
- 中文名:唐聰明
- 籍貫:四川南充
- 出生日期:1974年1月
- 畢業院校:四川輕化工學院
- 職業:教師
- 職稱:副教授
教育經歷,工作經歷,教學、科研及學術兼職,教學,科研方向,學術兼職,研究生培養情況,承擔的科研目,代表性論文,授權發明專利,專著,
教育經歷
2007.9-2010.6 中國科學院成都有機化學研究所,套用化學專業,工學博士
2001.9-2004.6 四川大學,化工學院,套用化學專業,工學碩士
1994.9-1996.6 四川理工學院,輕工系,食品專業,專科
工作經歷
2017.6-至今 重慶理工大學,化學化工學院,教授
2015.10-2017.6 西華師範大學,化學化工學院,教授
2010.10-2015.9 西華師範大學,化學化工學院,副教授
2005.10-2010.9 西華師範大學,化學化工學院,講師
2004.7-2005.9 西華師範大學和估汽妹,化學化工學院,助教
教學、科研及學術兼職
教學
承擔研究生課程《催化和擔乎企原理與工程》、《化工環保與安全》、本科生課程《精細化工產品合成原理與工藝學》、《套用化學綜合實驗》及《化工綜合創新實驗》。
科研方向
(1) 綠色催化合成
本方向重點關注生物質及其衍生物的高效定向轉化合成高質精細化工產品。
(2) 能源催化
氫是綠色能源,研發高效產氫技術是關鍵。本方向重妹多趨點關注醇鞏全船重整反應產氫及其相關研究。
(3) 環境催化
本方向致力於發展先進的催化技術解決環境污染問題。
(4) 材料化工
本方向格棕料致力於開發超疏水、超親水材料及其在環保、催化方面的套用。
學術兼職
Green Chemistry, Catalysis Communications, Industrial & Engineering Chemistry Research, Applied Catalysis A: General, Applied Catalysis B: Environmental等國際重要學術期刊的審稿人。
研究生培養情況
迄今已培養研究生11人,其中已畢業7人。學生獲獎情況:國家獎學金1人次,學校一等獎4人次,二等獎6人次,三等獎3人次。
承擔的科研目
(7) 稀貴金屬綜合利用新技術國家重點實驗室開放課題,SKL-SPM-202010,貴金屬/單分子層二硫化鉬表界面調控增強生物質及其衍生物選擇性加氫脫氧反應性能,2020/01-2021/12,20萬元,主持。
(6) 重慶市科委高新技術面上鴉影項目,cstc2019jscx-msxmX0002,基於乳酸選擇性加氫脫氧製備生物基丙酸的關鍵技術及套用,2019/08-2021/07,20萬元,主持。
(5) 重慶市教委重點項目,KJZD-K201901104,鹼金屬摻雜的有序介孔氧化鋁表面酸鹼性調控增強乳酸縮合反應活性,2019/09-2022/08,10萬元,主持。
(4) 四川省南充市高坪區科技局,化工環保與安全調研課題,2018/10-2018/12,9.3萬元,主持。
(3) 重慶工商大學廢油資源化技術與裝備教育部工程中心開放基金課題,KFJJ2019047,過渡金屬M-MoS2催化劑的構建及選擇性加氫脫氧反應,2019/10-2021/12,3萬元,主持蒸白翻。
(2) 江蘇省機動車尾氣污染控制重點實驗室開放基金課題,OVEC032,生物基乳酸縮合製備化學品2,3-戊二酮的催化劑酸鹼性調控,2018/10-2019/10,5萬元,主持。
(1) 四川省科技廳套用基礎面上項目,2017JY0188,有序介孔氧化鋁負載的鹼金屬含氧酸鹽材料的可控合成及其催化乳酸縮合反應製備2,3戊二酮,2017/03-2020/03,10萬元,主持。
代表性論文
(28) Chunyu Yin, Xinli Li*, Yunsheng Dai, Zhi Chen, Dingfeng Yang, Ruixue Liu, Weixin Zou, Congming Tang* and Lin Dong, Facet-regulated oxidative dehydrogenation of lactic acid to pyruvic acid on α-Fe2O3, Green Chemistry, 23, 328-332, 2021.
(27) Chunyu Yin, Xinli Li,* Zhi Chen, Weixin Zou, Yanli Peng, Song Wei, Congming Tang* and Lin Dong, Sustainable production of pyruvic acid: oxidative dehydrogenation of lactic acid over the FeMoO/P catalyst, New Journal of Chemistry, 44, 5884-5894, 2020.
(26) 唐聰明,張瑜,李新利,譚平華,龐均,張菊, 鄒偉欣,董林, 乙醛低溫綠色合成:焦磷酸鋯催化乳酸脫羰反應, 無機化學學報,35(5), 819-827, 2019.
(25) Ju Zhang, Xinli Li, Jun pang, Weixin Zou, Congming Tang*,and Lin Dong,An efficient and durable catalyst of hierarchically porous KLA/Ti3(PO4)4 for vapor phase condensation of lactic acid to 2,3-pentanedione,New Journal of Chemistry, 43, 5972-5979, 2019.
(24) Xinli Li, Jun Pang, Ju Zhang, Chunyu Yin, Weixin Zou, Congming Tang* and Lin Dong,Vapor phase deoxygenation of lactic acid to bio-propionic acid over dispersant enhanced-molybdenum oxide catalyst. Industrial & Engineering Chemistry Research,58, 101-109, 2019.
(23) Jun Pang, Xinli Li, Weixin Zou, Congming Tang*, Yu Wang and Lin Dong,Synthesis of surface-controlled CePO4 and its application for catalyzed decarbonylation of lactic acid to acetaldehyde. ChemistrySelect, 3, 12389-12395, 2018.
(22) Xinli Li, Yu Zhang, Zhi Chen, Ping Cao, Weixin Zou, Congming Tang*, Lin Dong, Yu Wang, Sustainable production of 2,3-pentanedione: catalytic performance of Ba2P2O7 doped with Cs for vapor-phase condensation of lactic acid. Industrial & Engineering Chemistry Research,56, 14437-14446, 2017.
(21) Xinli Li, Zhi Chen, Ping Cao, Wenjie Pu, Weixin Zou, Congming Tang*, Lin Dong, Ammonia promoted barium sulfate catalyst for dehydration of lactic acid to acrylic acid. RSC Advances, 7, 54696-54705, 2017.
(20) Xinli Li, Liangwei Sun, Weixin Zou, Ping Cao, Zhi Chen, Congming Tang, and Lin Dong, Efficient conversion of bio-lactic acid to 2,3-pentanedione on cesium doped hydroxyapatite catalysts with balanced acid-base sites, ChemCatChem, 9, 4621-4627, 2017.
(19) Zhang Yu, Li Xinli, Tang congming*, Facile preparation of Fe3O4 from Fe2O3 via reduction of mixed vapors containing lactic acid and water: catalytic deoxygenation of lactic acid into propionic acid, Chemistry Select, 1, 5002-5007, 2016.
(18) Liangwei Sun, Xinli Li, Congming Tang,* Comparative study on production of 2,3-pentanedione from lactic acid over SiO2 supported alkali metal nitrates, Acta Physico-Chimica Sinica (物理化學學報),32(9), 2327-2336, 2016.
(17) Xinli Li, Zhanjie Zhai, Congming Tang*, Liangwei Sun, Yu Zhang and Wei Bai,Production of propionic acid via hydrodeoxygenation of lactic acid over FexOy catalysts, RSC Advances, 6, 62252-62262, 2016.
(16) Congming Tang, Zhanjie Zhai, Xinli Li, Liangwei Sun, Wei Bai, Sustainable production of acetaldehyde from lactic acid over the magnesium aluminate spinel, Journal of the Taiwan Institute of Chemical Engineers, 58, 97-106, 2016.
(15) Congming Tang, Jiansheng Peng, Xinli Li, Zhanjie Zhai, Hejun Gao, Wei Bai, Ning Jiang, and Yunwen Liao, Sustainable production of acetaldehyde from lactic acid over the carbon catalysts, Korean Journal of Chemical Engineering, 33(1), 99-106, 2016.
(14) Congming Tang, Zhanjie Zhai, Xinli Li, Liangwei Sun, Wei Bai, Highly efficient and robust Mg0.388Al2.408O4 catalyst for gas-phase decarbonylation of lactic acid to acetaldehyde, Journal of Catalysis, 329, 206-217, 2015.
(13) Congming Tang,Jiansheng Peng, Xinli Li, Zhanjie Zhai, Wei Bai, Ning Jiang, Hejun Gao, and Yunwen Liao, Efficient and selective conversion of lactic acid into acetaldehyde using the mesoporous aluminum phosphate catalyst, Green Chemistry, 17, 1159-1166, 2015.
(12) Peng Jian-sheng,Li Xin-li, Tang Cong-ming*, Bai Wei, Barium sulphate catalyzed dehydration of lactic acid to acrylic acid, Green Chemistry, 16, 108-111, 2014.
(11) Tang Cong-ming*, Peng Jian-sheng, Fan Guo-ce, Li Xin-li, Pu Xiao-li, Bai Wei, Catalytic dehydration of lactic acid to acrylic acid over dibarium pyrophosphate, Catalysis Communications, 43, 231-234, 2014.
(10) Zhanjie Zhai, Xinli Li, Congming Tang*, Jiansheng Peng, Ning Jiang, Wei Bai, Hejun Gao, Yunwen Liao, Decarbonylation of lactic acid to acetaldehyde over aluminum sulphate catalyst, Industrial & Engineering Chemistry Research, 53, 10318-10327, 2014.
(9) Congming Tang, Jiansheng Peng, Xinli Li, Zhanjie Zhai, Ning Jiang, Wei Bai, Hejun Gao, and Yunwen Liao, Strontium pyrophosphate modified by phosphoric acid for dehydration of lactic acid to acrylic acid, RSC Advances, 4, 28875-28882, 2014.
(8) Tang Cong-ming*, Li Xin-li, Separative capability of γ-Al2O3 porous ceramic membrane modified by ZIF-8,Korean Journal of Chemical Engineering, 30(5), 1119-1124, 2013.
(7) Yang Bai, Pingya Luo, Pingquan Wang, Wei Bai*, Chengdong Xiong, Congming Tang. Hydrolytic Degradation of PPDO/PDLLA Blends Containing the Compatibilizer PLADO, Journal of Polymers and the Environment, 21, 1013-1025, 2013.
(6) Tang Cong-ming*, Li Xin-li, Wang Gong-ying, A highly efficient catalyst for direct synthesis of methyl acrylate via methoxycarbonylation of acetylene, Korean Journal of Chemical Engineering, 29(12), 1700-1709, 2012.
(5) Fan Guo-ce, Tang Cong-ming*, Li Xin-li, Highly efficient pyrophosphate/phosphate catalyst for the dehydration of lactic acid to acrylic acid, Journal of Molecular Catalysis (China), 26(6), 506-514, 2012.
(4) Bai Yang, Ma Chi, Wang Ping-quan, Fan Zhou, Bai Wei, Xiong Cheng-dong, Tang Cong-ming, Effect of particle size and surface modification on mechanical properties of poly(para-dioxanone)/ inorganic particles, Polymer Composites, 33(10), 1700-1706, 2012.
(3) Tang Cong-ming, Zeng Yi, Cao Ping, Yang Xian-gui, Wang Gong-ying*, The nickel and copper catalyzed hydroformylation of acetylene with carbon monoxide to acrylic acid, Catalysis Letters, 129(1-2), 189-193, 2009.
(2) Tang Cong-Ming, Zeng Yi, Yang Xian-Gui, Lei Yong-Cheng, Wang Gong-Ying*, The palladium catalyzed hydrocarboxylation of acetylene with carbon monoxide to acrylic acid under mild conditions, Journal of Molecular Catalysis A-Chemical, 314(1-2), 15-20, 2009.
(1) Cao Ping, Yang Xian-gui, Tang Cong-ming, Yang Jian, Yao Jie, Wang Yue, Wang Gong-ying*, Molybdenum Trioxide Catalyst for Transesterification of Dimethyl Carbonate and Phenyl Acetate to Diphenyl Carbonate, Chinese journal of catalysis, 30(9): 853-855, 2009.
授權發明專利
(1) 唐聰明;龐均; 陳志; 全學軍; 李新利; 張菊; 曹平; 鉬基催化劑、製備方法及其套用, 2020-11-24, 中國, ZL2018108926459.
(2) 唐聰明; 張瑜; 陳志; 全學軍; 曹平; 李新利; 一種催化劑及其製備方法、套用, 2020-12-15, 中國, ZL 201810014932X.
(3) 唐聰明; 張瑜; 李新利; 孫良偉; 龐均; 一種焦磷酸鋇負載硝酸銫催化劑及其製備方法、套用, 2019-12-13, 中國, ZL: 201710413246.5.
(4) 唐聰明; 翟占傑; 李新利; 張瑜; 孫良偉; 一種氧化鐵催化劑及其製備與套用, 2019-01-04, 中國, ZL: 201510953721.9.
(5) 唐聰明; 孫良偉; 李新利; 張瑜; 一種生物基乳酸縮合生成2,3-戊二酮催化劑的製備方法及其套用, 2018-05-15, 中國, ZL201610571130.X.
(6) 唐聰明;彭建生; 李新利; 翟占傑; 磷酸鋁催化劑及其製備和套用, 2016-08-17, 中國, ZL01410443134.0.
(7) 王公應; 唐聰明; 曾毅; 楊先貴; 王越; 一種乙炔羰基合成丙烯酸的方法, 2013-06-12, 中國, ZL 200810045609.5.
專著
(1) 《乳酸基化學品催化合成技術》,化學工業出版社,唐聰明、全學軍、李新利著,2019.
(4) 四川省南充市高坪區科技局,化工環保與安全調研課題,2018/10-2018/12,9.3萬元,主持。
(3) 重慶工商大學廢油資源化技術與裝備教育部工程中心開放基金課題,KFJJ2019047,過渡金屬M-MoS2催化劑的構建及選擇性加氫脫氧反應,2019/10-2021/12,3萬元,主持。
(2) 江蘇省機動車尾氣污染控制重點實驗室開放基金課題,OVEC032,生物基乳酸縮合製備化學品2,3-戊二酮的催化劑酸鹼性調控,2018/10-2019/10,5萬元,主持。
(1) 四川省科技廳套用基礎面上項目,2017JY0188,有序介孔氧化鋁負載的鹼金屬含氧酸鹽材料的可控合成及其催化乳酸縮合反應製備2,3戊二酮,2017/03-2020/03,10萬元,主持。
代表性論文
(28) Chunyu Yin, Xinli Li*, Yunsheng Dai, Zhi Chen, Dingfeng Yang, Ruixue Liu, Weixin Zou, Congming Tang* and Lin Dong, Facet-regulated oxidative dehydrogenation of lactic acid to pyruvic acid on α-Fe2O3, Green Chemistry, 23, 328-332, 2021.
(27) Chunyu Yin, Xinli Li,* Zhi Chen, Weixin Zou, Yanli Peng, Song Wei, Congming Tang* and Lin Dong, Sustainable production of pyruvic acid: oxidative dehydrogenation of lactic acid over the FeMoO/P catalyst, New Journal of Chemistry, 44, 5884-5894, 2020.
(26) 唐聰明,張瑜,李新利,譚平華,龐均,張菊, 鄒偉欣,董林, 乙醛低溫綠色合成:焦磷酸鋯催化乳酸脫羰反應, 無機化學學報,35(5), 819-827, 2019.
(25) Ju Zhang, Xinli Li, Jun pang, Weixin Zou, Congming Tang*,and Lin Dong,An efficient and durable catalyst of hierarchically porous KLA/Ti3(PO4)4 for vapor phase condensation of lactic acid to 2,3-pentanedione,New Journal of Chemistry, 43, 5972-5979, 2019.
(24) Xinli Li, Jun Pang, Ju Zhang, Chunyu Yin, Weixin Zou, Congming Tang* and Lin Dong,Vapor phase deoxygenation of lactic acid to bio-propionic acid over dispersant enhanced-molybdenum oxide catalyst. Industrial & Engineering Chemistry Research,58, 101-109, 2019.
(23) Jun Pang, Xinli Li, Weixin Zou, Congming Tang*, Yu Wang and Lin Dong,Synthesis of surface-controlled CePO4 and its application for catalyzed decarbonylation of lactic acid to acetaldehyde. ChemistrySelect, 3, 12389-12395, 2018.
(22) Xinli Li, Yu Zhang, Zhi Chen, Ping Cao, Weixin Zou, Congming Tang*, Lin Dong, Yu Wang, Sustainable production of 2,3-pentanedione: catalytic performance of Ba2P2O7 doped with Cs for vapor-phase condensation of lactic acid. Industrial & Engineering Chemistry Research,56, 14437-14446, 2017.
(21) Xinli Li, Zhi Chen, Ping Cao, Wenjie Pu, Weixin Zou, Congming Tang*, Lin Dong, Ammonia promoted barium sulfate catalyst for dehydration of lactic acid to acrylic acid. RSC Advances, 7, 54696-54705, 2017.
(20) Xinli Li, Liangwei Sun, Weixin Zou, Ping Cao, Zhi Chen, Congming Tang, and Lin Dong, Efficient conversion of bio-lactic acid to 2,3-pentanedione on cesium doped hydroxyapatite catalysts with balanced acid-base sites, ChemCatChem, 9, 4621-4627, 2017.
(19) Zhang Yu, Li Xinli, Tang congming*, Facile preparation of Fe3O4 from Fe2O3 via reduction of mixed vapors containing lactic acid and water: catalytic deoxygenation of lactic acid into propionic acid, Chemistry Select, 1, 5002-5007, 2016.
(18) Liangwei Sun, Xinli Li, Congming Tang,* Comparative study on production of 2,3-pentanedione from lactic acid over SiO2 supported alkali metal nitrates, Acta Physico-Chimica Sinica (物理化學學報),32(9), 2327-2336, 2016.
(17) Xinli Li, Zhanjie Zhai, Congming Tang*, Liangwei Sun, Yu Zhang and Wei Bai,Production of propionic acid via hydrodeoxygenation of lactic acid over FexOy catalysts, RSC Advances, 6, 62252-62262, 2016.
(16) Congming Tang, Zhanjie Zhai, Xinli Li, Liangwei Sun, Wei Bai, Sustainable production of acetaldehyde from lactic acid over the magnesium aluminate spinel, Journal of the Taiwan Institute of Chemical Engineers, 58, 97-106, 2016.
(15) Congming Tang, Jiansheng Peng, Xinli Li, Zhanjie Zhai, Hejun Gao, Wei Bai, Ning Jiang, and Yunwen Liao, Sustainable production of acetaldehyde from lactic acid over the carbon catalysts, Korean Journal of Chemical Engineering, 33(1), 99-106, 2016.
(14) Congming Tang, Zhanjie Zhai, Xinli Li, Liangwei Sun, Wei Bai, Highly efficient and robust Mg0.388Al2.408O4 catalyst for gas-phase decarbonylation of lactic acid to acetaldehyde, Journal of Catalysis, 329, 206-217, 2015.
(13) Congming Tang,Jiansheng Peng, Xinli Li, Zhanjie Zhai, Wei Bai, Ning Jiang, Hejun Gao, and Yunwen Liao, Efficient and selective conversion of lactic acid into acetaldehyde using the mesoporous aluminum phosphate catalyst, Green Chemistry, 17, 1159-1166, 2015.
(12) Peng Jian-sheng,Li Xin-li, Tang Cong-ming*, Bai Wei, Barium sulphate catalyzed dehydration of lactic acid to acrylic acid, Green Chemistry, 16, 108-111, 2014.
(11) Tang Cong-ming*, Peng Jian-sheng, Fan Guo-ce, Li Xin-li, Pu Xiao-li, Bai Wei, Catalytic dehydration of lactic acid to acrylic acid over dibarium pyrophosphate, Catalysis Communications, 43, 231-234, 2014.
(10) Zhanjie Zhai, Xinli Li, Congming Tang*, Jiansheng Peng, Ning Jiang, Wei Bai, Hejun Gao, Yunwen Liao, Decarbonylation of lactic acid to acetaldehyde over aluminum sulphate catalyst, Industrial & Engineering Chemistry Research, 53, 10318-10327, 2014.
(9) Congming Tang, Jiansheng Peng, Xinli Li, Zhanjie Zhai, Ning Jiang, Wei Bai, Hejun Gao, and Yunwen Liao, Strontium pyrophosphate modified by phosphoric acid for dehydration of lactic acid to acrylic acid, RSC Advances, 4, 28875-28882, 2014.
(8) Tang Cong-ming*, Li Xin-li, Separative capability of γ-Al2O3 porous ceramic membrane modified by ZIF-8,Korean Journal of Chemical Engineering, 30(5), 1119-1124, 2013.
(7) Yang Bai, Pingya Luo, Pingquan Wang, Wei Bai*, Chengdong Xiong, Congming Tang. Hydrolytic Degradation of PPDO/PDLLA Blends Containing the Compatibilizer PLADO, Journal of Polymers and the Environment, 21, 1013-1025, 2013.
(6) Tang Cong-ming*, Li Xin-li, Wang Gong-ying, A highly efficient catalyst for direct synthesis of methyl acrylate via methoxycarbonylation of acetylene, Korean Journal of Chemical Engineering, 29(12), 1700-1709, 2012.
(5) Fan Guo-ce, Tang Cong-ming*, Li Xin-li, Highly efficient pyrophosphate/phosphate catalyst for the dehydration of lactic acid to acrylic acid, Journal of Molecular Catalysis (China), 26(6), 506-514, 2012.
(4) Bai Yang, Ma Chi, Wang Ping-quan, Fan Zhou, Bai Wei, Xiong Cheng-dong, Tang Cong-ming, Effect of particle size and surface modification on mechanical properties of poly(para-dioxanone)/ inorganic particles, Polymer Composites, 33(10), 1700-1706, 2012.
(3) Tang Cong-ming, Zeng Yi, Cao Ping, Yang Xian-gui, Wang Gong-ying*, The nickel and copper catalyzed hydroformylation of acetylene with carbon monoxide to acrylic acid, Catalysis Letters, 129(1-2), 189-193, 2009.
(2) Tang Cong-Ming, Zeng Yi, Yang Xian-Gui, Lei Yong-Cheng, Wang Gong-Ying*, The palladium catalyzed hydrocarboxylation of acetylene with carbon monoxide to acrylic acid under mild conditions, Journal of Molecular Catalysis A-Chemical, 314(1-2), 15-20, 2009.
(1) Cao Ping, Yang Xian-gui, Tang Cong-ming, Yang Jian, Yao Jie, Wang Yue, Wang Gong-ying*, Molybdenum Trioxide Catalyst for Transesterification of Dimethyl Carbonate and Phenyl Acetate to Diphenyl Carbonate, Chinese journal of catalysis, 30(9): 853-855, 2009.
授權發明專利
(1) 唐聰明;龐均; 陳志; 全學軍; 李新利; 張菊; 曹平; 鉬基催化劑、製備方法及其套用, 2020-11-24, 中國, ZL2018108926459.
(2) 唐聰明; 張瑜; 陳志; 全學軍; 曹平; 李新利; 一種催化劑及其製備方法、套用, 2020-12-15, 中國, ZL 201810014932X.
(3) 唐聰明; 張瑜; 李新利; 孫良偉; 龐均; 一種焦磷酸鋇負載硝酸銫催化劑及其製備方法、套用, 2019-12-13, 中國, ZL: 201710413246.5.
(4) 唐聰明; 翟占傑; 李新利; 張瑜; 孫良偉; 一種氧化鐵催化劑及其製備與套用, 2019-01-04, 中國, ZL: 201510953721.9.
(5) 唐聰明; 孫良偉; 李新利; 張瑜; 一種生物基乳酸縮合生成2,3-戊二酮催化劑的製備方法及其套用, 2018-05-15, 中國, ZL201610571130.X.
(6) 唐聰明;彭建生; 李新利; 翟占傑; 磷酸鋁催化劑及其製備和套用, 2016-08-17, 中國, ZL01410443134.0.
(7) 王公應; 唐聰明; 曾毅; 楊先貴; 王越; 一種乙炔羰基合成丙烯酸的方法, 2013-06-12, 中國, ZL 200810045609.5.
專著
(1) 《乳酸基化學品催化合成技術》,化學工業出版社,唐聰明、全學軍、李新利著,2019.
