鐜嬩腹-閲嶅簡澶у鍖栧鍖栧伐瀛﹂櫌

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甯堣祫鍔涢噺

    褰撳墠浣嶇疆锛 棣 椤 > 甯堣祫鍔涢噺 >

     

     


    鐜嬩腹 鍗氬+锛屽壇鏁欐巿锛屽崥澹敓瀵煎笀

     

    涓撲笟锛鍖栧宸ョ▼涓庡伐鑹恒佸悎鎴愮敓鐗╁鍒嗙宸ョ▼銆佸姛鑳芥潗鏂

     

     

    绠鍘嗭細

    2013.09~鑷充粖         閲嶅簡澶у鍖栧鍖栧伐瀛﹂櫌锛屽壇鏁欐巿锛屽悎浣滃洟闃熻礋璐d汉锛氬懆灏忓崕鏁欐巿

    2019.11~鑷充粖         涓浗鐢电鑱斿悎寰數瀛愪腑蹇冿紙CUMEC锛夊垱鏂拌仈鍚堜綋鍏艰亴绉戝瀹讹紝鍚堜綔棣栧腑绉戝瀹讹細鍒樼帀鑿查潚鍗

    2019.05~鑷充粖         鐓ょ熆鐏惧鍔ㄥ姏瀛︿笌鎺у埗鍥藉閲嶇偣瀹為獙瀹ゅ浐瀹氭垚鍛橈紝鍚堜綔鍥㈤槦璐熻矗浜猴細姊佽繍鍩规暀鎺堬紝鑳″崈搴暀鎺

    2018.09~2019.03   鍥芥満闆嗗洟閲嶅簡鏉愭枡鐮旂┒闄㈡湁闄愬叕鍙哥鎶鍙戝睍閮 鍓儴闀匡紙鎸傝亴锛夛紝鍚堜綔瀵煎笀锛氳档瀹変腑閮ㄩ暱

    2018.05~2018.11   缇庡浗楹荤渷鐞嗗伐瀛﹂櫌鐢熺墿绯伙紝鐧藉ご鐢熺墿鍖诲鐮旂┒鎵锛岃闂鑰咃紝鍚堜綔瀵煎笀Prof. Jing-Ke Weng锛圖ouble Rainbow鍏徃鍒涘浜猴紝鑱斿悎鍒涘浜猴細瑗挎箹澶у鍓牎闀胯鐢版暀鎺堬級

    2017.04~2018.05   閲嶅簡甯傜瀛︽妧鏈眬楂樻柊鎶鏈彂灞曚笌浜т笟鍖栧 鍓闀 锛堟寕鑱岋級锛屽悎浣滃甯堬細璁稿織楣忓壇灞闀匡紙閲嶅簡绉戞妧灞锛夛紝鏈辨墠鏈濋櫌闀匡紙閲嶅ぇ绉戝彂闄級

    2013.10~2016.10   缇庡浗鑾辨柉澶у锛屽寲瀛︿笌鐢熺墿宸ョ▼绯伙紝鍗氬+鍚庯紝鍚堜綔瀵煎笀Prof. Ka-Yiu San锛圗. D. Butcher 鑽h獕鏁欐巿锛

    2011.09~2013.09   閲嶅簡澶у鍖栧鍖栧伐瀛﹂櫌锛岃甯堬紝鍚堜綔鍥㈤槦璐熻矗浜猴細鍛ㄥ皬鍗庢暀鎺

    2005.09~2011.07   涓浗绉戝闄㈣繃绋嬪伐绋嬬爺绌舵墍锛岀敓鐗╁寲宸ュ崥澹紝瀵煎笀鍒樹細娲茬爺绌跺憳锛堢幇涓浗绉戝闄㈢豢鑹茶繃绋嬩笌宸ョ▼閲嶇偣瀹為獙瀹や富浠伙紝鍥藉鏉伴潚锛夈佽嫃蹇楀浗鐮旂┒鍛橈紙鍥藉鏉伴潚锛夈侀偄寤烘皯鐮旂┒鍛橈紙973棣栧腑锛岄泤閭︾豢鑹茶繃绋嬩笌鏂版潗鏂欑爺绌堕櫌闄㈤暱锛

    2001.09~2005.07   鍥涘窛澶у锛屽寲瀛﹀伐绋嬶紝瀛﹀+锛屾寚瀵艰佸笀锛氳鑹摱鏁欐巿锛堢幇鍥涘窛澶у鍓牎闀匡級锛屽紶姘稿鏁欐巿

    瀛︽湳鍏艰亴

    SCI涓鍖烘湡鍒娿奊reen Energy & Environment銆嬮潚骞寸紪濮旓紝浜屽尯鏈熷垔銆夿ioreources and Bioprocessing銆嬮潚骞寸紪濮旓紝鏍稿績鏈熷垔銆婂綋浠e寲宸ョ爺绌躲嬬紪濮旓紝閲嶅簡甯傚寲宸ユ柊鏉愭枡鎶鏈垱鏂版垬鐣ヨ仈鐩熺涔﹂暱锛屼腑鍥藉寲宸ュ浼氱敓鐗╁寲宸ヤ笓涓氬鍛樹細甯稿姟濮斿憳锛屼腑鍥芥湁鑹查噾灞炰骇涓氭妧鏈垱鏂版垬鐣ヨ仈鐩熶笓瀹跺鍛樹細濮斿憳锛屽浗瀹惰嚜鐒剁瀛﹀熀閲戝璇勫涓撳锛岄噸搴嗗競楂樻柊鎶鏈紒涓氳瘎瀹′笓瀹讹紝閲嶅簡甯傚寲宸ユ柊鏉愭枡浜т笟鎶鏈浘璋辩紪鍒剁粍涓撳锛岄噸搴嗗競鈥滃崄鍥涗簲鈥濈鎶鍙戝睍瑙勫垝缂栧埗缁勪笓瀹讹紝閲嶅簡甯傚熀纭鐮旂┒鍗佸勾琛屽姩璁″垝锛2021-2030锛夌紪鍒朵笓瀹剁粍涓撳锛岀編鍥藉寲瀛﹀伐绋嬪笀瀛︿細浼氬憳锛岀編鍥藉井鐢熺墿瀛︿細浼氬憳锛岀編鍥芥梾缇庝笓瀹跺崗浼氫細鍛橈紝閲嶅簡浜哄伐鏅鸿兘瀛︿細浼氬憳銆

    瀛︽湳褰卞搷

    鍖栧伐鏂版潗鏂欓鍩熶笓瀹讹紝鐢熺墿鍖栧伐棰嗗煙涓撳锛屽悎鎴愮敓鐗╁棰嗗煙涓撳锛岃幏涓浗鍖栧伐瀛︿細绉戝鎶鏈绉戞妧杩涙濂栵紙2020骞达紝绗竴瀹屾垚浜猴級锛岄噸搴嗗ぇ瀛︾瀛︽妧鏈鎶鏈彂鏄庡锛2018骞达紝绗竴瀹屾垚浜猴級锛涓浗绉戝闄㈤櫌闀夸紭绉濂栵紙200/10000锛绗簲灞婁腑缇庡寲宸ヤ細璁紭绉璁烘枃濂栵紙5/1000)锛IUPAC锛堜笘鐣岀函绮逛笌搴旂敤鍖栧鑱斿悎浼氾級闈掑勾绉戝瀹跺锛20/4000锛夛紝涓闄㈣繃绋嬫墍鎵闀跨壒绛夊锛2/200锛夛紝閲嶅簡甯傞洀楣拌鍒掍紭绉鎸囧鏁欏笀锛2018骞达級锛搴旈個瀛︽湳鎶ュ憡24娆★紝浠ョ涓浣滆呮垨閫氳浣滆呭彂琛SCI璁烘枃66绡囷紙褰卞搷鍥犲瓙9浠ヤ笂鐨勯《鍒7绡锛夛紝H-index 24锛鑾锋巿鏉冨彂鏄庝笓鍒21椤癸紝绗竴鍙戞槑浜6椤銆傝繎浜斿勾涓绘寔鍥藉鑷劧绉戝鍩洪噾闈笂椤圭洰锛岄潚骞撮」鐩強绉戞妧閮ㄩ噸鐐圭爺鍙戝瓙璇鹃3椤癸紝涓绘寔閲嶅簡甯備汉宸ユ櫤鑳介噸澶т富棰樹笓椤硅棰橈紝閲嶅簡甯傛妧鏈垱鏂颁笌搴旂敤鍙戝睍璇鹃绛夌渷閮ㄧ骇椤圭洰12椤癸紝鐬勫噯鍥介檯瀛︽湳鍓嶆部锛屾湇鍔′紒涓氶噸澶ч渶姹傦紝涓轰紒涓氭柊澧炲埄娑3000澶氫竾鍏冦

    Dr. Dan Wang has worked as an Associate Professor in Chemical Engineering at Chongqing University since Sep. 2011. She obtained her PhD in 2011 at Institute of Process Engineering, Chinese Academy of Sciences. She worked as a Research Associate at Rice University, USA, from 2013 to 2015. She worked as a visting scholar in MIT and Whitehead Institute in 2018. She was selected as the Young Scientist by IUPAC. She has published more than 40 papers in Peer-Reviewed Journals including Metabolic Engineering, Biotechnology and Bioengineering, Bioresource Technology.

    瀛︽湳鎶ュ憡锛

    1.澶т細鎶ュ憡锛

    2020.05 鈥滄姉鐤潃鑿屽寲瀛﹀搧鐨勭豢鑹插崌绾э細鏈洪亣涓庢寫鎴樷濆浗闄呯爺璁ㄤ細-澶╃劧鎶楄弻鍓傜殑鍒跺鍙婂簲鐢

    2019.05 绗笁灞婄敓鐗╁寲宸ラ潚骞村鑰呰鍧-闈炲ぉ鐒舵皑鍩洪吀鐨勭敓鐗╁悎鎴

    2.閭璇锋姤鍛婏細

    2019.10 International Conference on Synthetic Biology-Artificial carbon-chain elongation cycle for nnatural amino acids production 

    2019.10 Metabolic Engineering Summit-Organic unnatural amino acids production

    2018.10 楹荤渷鐞嗗伐瀛﹂櫌鐢熺墿绯诲叕寮瀛︽湳鎶ュ憡-Metabolic engineering for organic acids production

    2014.05 Annual Meeting of American Society of Microbiology-Engineering Escherichia coli strains for succinic acid production

    鑱旂郴鏂瑰紡

    閲嶅簡甯傛矙鍧潩鍖哄ぇ瀛﹀煄鍗楄矾55鍙烽噸搴嗗ぇ瀛﹁檸婧牎鍖虹悊绉戞ゼLC517锛孡C522锛孡C322锛

    School of Chemistry and Chemical Engineering, Chongqing University, Chongqing 400044, China.

    Tel锛+86-18523118282锛汦-mail锛歞wang@cqu.edu.cn

    鐮旂┒鏂瑰悜鍜岄」鐩

     

    鐮旂┒鏂瑰悜

           鍥寸粫鍥藉鍜屼紒涓氶渶姹傦紝鎵挎媴绉戞妧鏀诲叧鍜屽熀纭鐮旂┒椤圭洰锛屽湪鐢熺墿鍖栧伐鍓嶆部棰嗗煙寮灞曠爺绌跺伐浣滐細鍏蜂綋涓哄熀纭浠h阿璋冩帶銆佸悎鎴愮敓鐗╁銆侀珮鏁堝垎绂诲拰鍔熻兘鏉愭枡鍙婃櫤鎱у寲宸ョ瓑銆

    1銆佸熀纭浠h阿璋冩帶銆佺敓鐗╄川楂樻晥鍒╃敤鍙婂悎鎴愮敓鐗╁

    Fundamental metabolic regulation, Biomass utilizationsynthetic biology

        璁$畻鏈烘ā鎷熸妧鏈拰婀垮疄楠岀浉缁撳悎鏋勫缓鏂颁唬璋㈤斿緞鐨勫悎鎴愮敓鐗╁鐮旂┒锛涗笁缇ч吀浠h阿銆佽剛鑲吀浠h阿鍙婃皑鍩洪吀浠h阿鏈哄埗鍙婅皟鎺э紱鍒╃敤鍚堟垚鐢熺墿瀛︾瓥鐣ョ敓浜ч珮鍒嗗瓙鏉愭枡銆佸ぉ鐒朵骇鐗┿佸師鏂欒嵂銆佽嵂鐗╀腑闂翠綋鍙婄爺绌跺叾鍦ㄥ尰瀛︽姉鑲跨槫涓殑浣滅敤锛涚氦缁寸礌鍦ㄧ瀛愭恫浣撶豢鑹叉憾鍓備腑鐨勬憾瑙f満鍒跺拰杩囩▼寮哄寲銆

    2銆侀珮鏁堝垎绂荤函鍖栧強鍔熻兘鏉愭枡

    High efficient separation and purification, functional materials

         鍒╃敤鑶滃垎绂汇佸眰鏋愬垎绂汇佷翰鍜岃壊璋辩瓑鎶鏈紝寮灞曞ぉ鐒朵骇鐗┿佽吹閲戝睘閾傞搼鍚堥噾绛夌殑鍒嗙宸ヨ壓鍙婁綔鐢ㄦ満鍒剁爺绌讹紱鐮旂┒宸ヤ笟搴熷純鐗╁閾侀摤娓g敤浜庢按娉ユ坊鍔犲墏锛岄搨閾戝熀娴嬫俯鐢ㄧ儹鐢靛伓銆佺儹鐢甸樆鍥炴敹鎻愬彇楂樼函閾傞搼銆

     

    3銆佹櫤鎱у寲宸ュ拰鏅鸿兘鍚堟垚鐢熺墿鍖栧宸ョ▼

    Artificial intelligence based chemical engineering and synthetic biology

         鐮旂┒澶ф暟鎹佹櫤鑳藉寲鍦ㄥ寲宸ユ祦绋嬪瀷宸ュ巶鍜屽悎鎴愮敓鐗╁涓殑搴旂敤銆


       

    鐮旂┒椤圭洰锛堝惈鍦ㄧ爺椤圭洰鍙婂凡缁撻椤圭洰锛夛細

    1. 鍥藉鑷劧绉戝鍩洪噾: 澶氶叾鍒嗗瓙鏈哄櫒/绂诲瓙娑蹭綋鍌寲鍚堟垚姘ㄥ熀宸遍吀鏂扮郴缁熺殑鏋勫缓鍙婁紭鍖栨満鐞嗭紙21978027锛岄」鐩礋璐d汉锛2020-2024锛夛紱

    2. 鍥藉鍐涘椤圭洰:鍩轰簬鐭冲ⅷ鐑拰閰惰仈鍏嶇柅鎶鏈劅鐭NT娴撳害鐨勫厜鐢典紶鎰熷櫒鐨勭爺鍒讹紙璇鹃璐熻矗浜猴紝2020-2024锛

    3. 閲嶅簡甯傛妧鏈垱鏂颁笌搴旂敤鍙戝睍涓撻」閲嶇偣椤圭洰锛氬熀浜庢爣鍑嗙骇娴嬫俯鐢ㄩ搨鍩烘晱鎰熸潗鏂欏強鍣ㄤ欢鐮斿彂涓庝骇涓氬寲-楂樼函閾傞珮鏁堢函鍖栨妧鏈爺绌朵笌搴旂敤锛堣棰樿礋璐d汉锛2019-2021锛夛紱

    4. 鍝屽暥鐢查吀鐢熺墿鍚堟垚鍙婁骇涓氬簲鐢紙椤圭洰璐熻矗浜猴紝2021-2023锛

    5. SKA鑿岀鐮斿埗 (椤圭洰璐熻矗浜猴紝2020-2022锛

    6. 鍚搁檮-寰敓鐗╄﹀悎鐡︽柉娣卞害娑堟憾宸ヨ壓鐨勭悊璁哄熀纭鐮旂┒锛堥」鐩礋璐d汉锛2020-2022锛

    7. 閲嶅簡甯備汉宸ユ櫤鑳界鎶鍒涙柊閲嶅ぇ涓婚涓撻」锛岄噸鐐圭爺鍙戦」鐩細闈㈠悜鐗圭鍖栧鍝佹煍鎬у紑鍙戜笌鐢熶骇鐨勬櫤鑳界郴缁熷叧閿妧鏈爺绌朵笌搴旂敤绀鸿寖锛堜富鐮旓紝2018.1-2019.12锛夛紱

    8. 涓闄㈣繃绋嬫墍鍚堜綔椤圭洰锛氬崟绂诲瓙瀵笯MOF鏉愭枡鍒跺鍙婅〃寰侊紙椤圭洰璐熻矗浜猴紝2018-2019锛夛紱

    9. 閲嶅簡澶у鍓嶆部浜ゅ弶棰嗗煙閲嶇偣椤圭洰锛2018CDQYHG0010锛夛細鍩轰簬澶氶叾鍒嗗瓙鏈哄櫒姘ㄥ熀宸遍吀鐨勫悎鎴愭満鍒剁爺绌讹紙椤圭洰璐熻矗浜猴紝2018-2019锛夛紱

    10. 姘戜赴鍖栧伐鍚堜綔椤圭洰锛氶搧閾福鐢ㄤ簬姘存偿娣诲姞鍓傜殑鎶鏈紑鍙戯紙璇鹃璐熻矗浜猴紝2019-2020锛夛紱

    11. 寤哄嘲宸ヤ笟闆嗗洟鍚堜綔椤圭洰锛氫竵浜岄吀鐨勫悎鎴愬強鍒嗙绾寲(璇鹃璐熻矗浜猴紝2016-2018)锛

    12. 閲嶅簡甯傝柉涓氳偛绉嶄腑蹇冮」鐩-鐢樿柉涓姳闈掔礌鍜岃儭钀濆崪绱犵殑妫娴嬶紙椤圭洰璐熻矗浜猴紝2016-2018锛夛紱

    13. 涓婃捣浜戞澂鏅鸿兘绉戞妧鏈夐檺鍏徃鍚堜綔椤圭洰锛氫竴绉嶄簩姘敳鐑风殑鏇夸唬婧跺墏锛堥」鐩礋璐d汉锛2020锛夛紱

    14. 閲嶅簡甯傛暀濮攃y180101姘у寲杩樺師鑷钩琛″弽搴旂殑鏋勫缓鍙婂簲鐢ㄤ簬寰敓鐗╃敓浜т笣姘ㄩ唶鐨勭爺绌(椤圭洰璐熻矗浜猴紝2017-2018)锛

    15. 閲嶅簡甯傛暀濮攃y160101浣庝钩绯栧拰瀵屽惈鐩婄敓鍏僄OS鐗涘ザ鐨勭瀛﹀熀纭鍜屽簲鐢ㄧ爺绌(椤圭洰璐熻矗浜猴紝2016-2017)锛

    16. 閲嶅簡甯傛暀濮攃y155100缁胯壊鐢熺墿鍩哄鏂欎笌鎴戜滑鐨勭敓娲-璁よ瘑銆佸埗澶囧強搴旂敤(椤圭洰璐熻矗浜猴紝2017-2018)锛

    17. 閲嶅簡甯傝嚜鐒跺熀閲慶stc2015jcyjA1504锛氳剛鑲吀鍙婂叾琛嶇敓鐗╃殑鍙帶鍚堟垚鐮旂┒(椤圭洰璐熻矗浜猴紝2015-2017)锛

    18. 閲嶅簡甯傝嚜鐒跺熀閲慶stc2011jjA0075锛氭帴鏋濊禆姘ㄩ吀鏌旀ц噦鐨勪氦鑱斿3鑱氱硸寰悆鍥哄畾鍖栭叾绯荤粺鐨勭爺绌跺強搴旂敤(椤圭洰璐熻矗浜猴紝2012-2014)锛

    19. 閲嶅簡甯傛皯鐢熼」鐩甤stc2017shmsA0054锛氬ぇ瀹楄嵂鐗╁師鏂欑殑鐢熺墿鍙戦叺鏂版妧鏈紙浠h阿宸ョ▼锛夌爺绌跺強搴旂敤(璇鹃璐熻矗浜猴紝2017-2018)锛

    20. 閲嶅簡甯傛皯鐢熼」鐩甤stc2017shmsA0082锛氭墜鎬ц嵂鐗╀腑闂翠綋鍝屽暥鐢查吀鐢熺墿鍚堟垚鍏抽敭鎶鏈爺绌(椤圭洰璐熻矗浜猴紝2017-2018)锛

    21. 鍥藉鑷劧绉戝鍩洪噾: 鍩轰簬鍩哄洜闂撮殧搴忓垪璋冩帶鍩哄洜琛ㄨ揪鏋勫缓缁嗚優宸ュ巶鐢熶骇鐞ョ弨閰革紙21106191锛岄」鐩礋璐d汉锛2012-2014锛夛紱

    22. 閲嶅簡澶у浜烘墠寮曡繘椤圭洰(璇鹃璐熻矗浜猴紝2011-2014) 

    浠h〃鎬ц鏂囥佷笓钁楀拰涓撳埄

     

     


    2020骞达細

    [49] Hong Wang, Yang Su, Dan Wang, Saimeng Jin, Shunan Wei, Weifeng Shen*. Optimal Design and Energy-Saving Investigation of the Triple CO2 Feeds for Methanol Production System by Combining Steam and Dry Methane Reforming. Ind. Eng. Chem. Res. 2020, 59: 1596-1606.(绗笁浣滆咃紝IF=3.375)

     

    [48] Yanqin Xu, Liyue Xiao, Yating Chang, Yuan Cao, Changguo Chen, Dan Wang*. 2020.pH and Redox Dual-Responsive MSN-S-S-CS as a Drug Delivery System in Cancer Therapy. Materials, 2020, 13: 1279.(閫氳浣滆咃紝IF=3.424锛

     

    [47] Yanqin Xu, Jie Liu, Shumin Guan, Yuan Cao*, Changguo Chen*, Dan Wang*. 2020. A dual pH and redox-responsive Ag/ AgO/carboxymethyl chitosan composite hydrogel for controlled dual drug delivery. J. Biomat. Sci.-Polyme. 2020, 31: 1706-1721(鍏遍氳浣滆咃紝IF=2.718锛

     

    [46] Yanqin Xu, Dan Zhou, Ruoshi Luo, Xizhi Yang, Baosheng Wang, Xiaochao Xiong, Weifeng Shen, Qinhong Wang, Dan Wang*. 2020. Metabolic engineering of Escherichia coli for polyamides monomer未-valerolactam production from feedstock lysine. Appl. Micorbiol. Biotechnol.2020,10.1007/s00253-020-10939-8(閫氳浣滆咃紝IF=3.059锛

     

    [45] 寰愬溅鑺,鑲栦开鎮,闄堟槍鍥,鐜嬩腹,鏇规笂*. 2020. 閲戝睘鏈夋満妗嗘灦澶嶅悎鏉愭枡鍦ㄨ秴绾х數瀹瑰櫒涓殑鍚堟垚鍙婂簲鐢ㄧ爺绌, 鍖栧伐瀛︽姤锛71: 4473-4489(绗洓浣滆咃紝EI锛

     

    [44] 寰愬溅鑺,绉﹂拪,鐜嬬儴,闄堟槍鍥,鏇规笂*,鐜嬩腹*. 2020. NH2-MCM-41鐨勬敼鎬у強鍏秔H鍝嶅簲鎬ч噴鑽殑鐮旂┒.鍖栧伐瀛︽姤锛71: 4783-47911(閫氳浣滆咃紝EI锛

     

    [43] 寰愬溅鑺,鏉ㄩ敗鏅,缃楄嫢璇,榛勭帀绾,闇嶉攱,鐜嬩腹*. 2020. 鍚堟垚鐢熺墿瀛﹀湪鐢熺墿鍩哄鏂欏埗閫犱腑鐨勫簲鐢.鍖栧伐瀛︽姤锛71: 4520-4531(閫氳浣滆咃紝EI锛

     

    2019骞达細

    [42] Jie Cheng, Ge Hu, Yanqin Xu, Michael P. Torrens-Spence, Xiaohua Zhou, Dan Wang*, Jing-Ke Weng*, Qinhong Wang*. 2019. Production of nonnatural straight-chain amino acid 6-aminocaproate via an artificial iterative carbon-chain-extension cycle. Metab. Eng. 2019,55: 23-32. (*鍏遍氳浣滆咃紝IF=7.808) 琚鎶閮ㄧ敓鐗╂妧鏈腑蹇冧寒鐐规姤閬http://www.most.gov.cn/gnwkjdt/201907/t20190715_147700.htm

     

    [41] Meihua Huang, Jie Cheng, Peng Chen, Gaowei Zheng, Dan Wang* and Yuanliang Hu*. 2019. Efficient production of succinic acid in engineered Escherichia coli strains controlled by anaerobically-induced nirB promoter using sweet potato waste hydrolysate. J. Environ. Manag. 2019,237: 147-154. (*鍏遍氳浣滆咃紝IF=5.647)

     

    2018骞达細

    [40] Jie Cheng, Yining Zhang, Meihua Huang, Peng Chen, Xiahua Zhou, Dan Wang*, Qinhong Wang*. 2018. Enhanced 5-aminovalerate production in Escherichia coli from L-lysine with ethanol and hydrogen peroxide addition. J. Chem. Technol. Biotechnol. 2018,93: 3492-3501. (*鍏遍氳浣滆咃紝IF=2.659)


    [39] Jie Cheng, Yuding Huang, Le Mi, Wujiu Chen, Dan Wang*, Qinhong Wang*. 2018. An economically and environmentally acceptable synthesis of chiral drug intermediate L-pipecolic acid from biomass-derived lysine via artificially engineered microbes. J. Ind. Microbiool. Biotechnol. 2018,45: 405-415. (*鍏遍氳浣滆咃紝IF=2.99)


    [38] Jie Cheng, Pen Chen, Andong Song, Dan Wang*, Qinhong Wang*. 2018. Expanding lysine industry: industrial biomanufacturing of lysine and its derivatives. J. Ind. Microbiol. Biotechnol. 2018,45: 719-734. (*鍏遍氳浣滆咃紝IF=2.99)


    2017骞达細

    [37] Le Mi, Dandan Qin, Jie Cheng, Dan Wang*, Sha Li*, Xuetuan Wei. 2017. Efficient production of free fatty acids from ionic liquid-based acid- or enzyme-catalyzed bamboo hydrolysate. J. Ind. Microbiol. Biotechnol. 2017,44: 419-430. (*鍏遍氳浣滆咃紝IF=2.99)


    [36] Wenqin Si, Yuntao Li, Jie Zheng, Shunan Wei*, Dan Wang* 2017. Enhanced hydrolysis of bamboo biomass by chitosan based solid acid catalyst with surfactant addition in ionic liquid. Carbohydr. Polym., 2017,174: 154-159.(*鍏遍氳浣滆咃紝IF=7.641)

     

    2016骞达細

    [35] Dandan Qin, Yuanliang Hu, Jie Cheng, Nan Wang, Sha Li*, Dan Wang*. 2016. An auto-inducible Escherichia coli strain obtained by adaptive laboratory evolution for fatty acid synthesis from ionic liquid-treated bamboo hydrolysate. Bioresour. Technol. 2016,221: 375-384. (*鍏遍氳浣滆咃紝IF=7.539)

     

    [34] Jie Cheng, Nan Wang, Dezhou Zhao, Dandan Qin, Wenqing Si, Yunfei Tan, Shunan Wei, Dan Wang*. 2016. The enhancement of the hydrolysis of bamboo biomass in ionic liquid with chitosan-based solid acid catalysts immobilized with metal ions. Bioresour. Technol.2016,220: 457-463. (*閫氳浣滆咃紝IF=7.539)鍙啀鐢熻兘婧愬叏鐞冨垱鏂扳濈綉绔欑壒鍒姤閬https://reginnovations.org/bioenergy/hydrolysis-bamboo-biomass-ionic-liquid-chitosan-based-solid-acid-catalysts-immobilized-metal-ions/

     

    [33] Wen Jiang, Zhiming Zhou, Dan Wang*, Xiaohua Zhou*, Renyou Tao, Yang Yang, Yexin Shi, Guiluo Zhang, Deyi Wang, Zhen Zhou*. Transglutaminase catalyzed hydrolyzed wheat gliadin grafted with chitosan oligosaccharide and its characterization. Carbohydr. Polym.2016,153: 105-114 (*鍏遍氳浣滆咃紝IF=7.641)


    2015骞达細

    [32] Dan Wang, Chandresh Thakker, Ping Liu, George N. Benett, Ka-Yiu San*. 2015. Efficient production of free fatty acids from soybean meal carbohydrate. Biotechnol. Bioeng.2015,112: 2324-2333. (绗竴浣滆咃紝IF=4.26)


    [31] Dan Wang, Hui Wu, Chandresh Thakker, Jared Beyersdorf, George N. Benett, Ka-Yiu San*. 2015. Efficient free fatty acid production in engineered Escherichia coli strains using soybean oligosaccharides as feedstock. Biotech. Prog.2015 ,31(3): 686-694.(绗竴浣滆咃紝IF=2.406)


    [30] Jing Wang, Dandan Qin, Baoyun Zhang, Qiang Li, Lichun Dong, Xiaohua Zhou*, Dan Wang*.2015. Fine-tuning of ecaA and pepc gene expression increases succinic acid production in Escherichia coli. Appl. Micorbiol. Biotechnol.2015,99:8575-8586 (*鍏遍氳浣滆咃紝IF=3.67)


    2014骞达細

    [29] Jing Wang, Baoyun Zhang, Jie Zhang, Honghui Wang, Minghui Zhao, Nan Wang, Lichun Dong, Xiaohua Zhou*, Dan Wang*. 2014. Enhanced succinic acid production and magnesium utilization by overexpression of magnesium transporter mgtA in Escherichia coli mutant. Bioresour. Technol.2014,170(07): 125-131,2014 (*鍏遍氳浣滆咃紝IF=7.539)


    [28] Nan Wang, Jie Zhang, Honghui Wang, Qiang Li, Sun鈥檃n Wei, Dan Wang*. 2014. Effects of metal ions on the hydrolysis of bamboo biomass in 1-butyl-3-methylimidazolium chloride with dilute acid as catalyst. Bioresour. Technol.2014,173(09): 399-405 (*閫氳浣滆咃紝IF=7.539)


    [27] Jie Zhang, Xiaohua Zhou, Dan Wang*, Xing Zhou, Fang Yun, Shiyu Tan. 2014. A comprehensive study of extraction of L-lysine with sec-octylphenoxy acetic acid in sulfonated kerosene. Sep. Sci. Technol. 2014,49(09): 1349-1356 (*閫氳浣滆咃紝IF=1.354锛


    [26] Jie Zhang, Dan Wang*, Jiachuan Pan, Jing Wang, Hongbo Zhao, Qiang Li, Xiaohua Zhou*. 2014. Efficient resveratrol production by immobilized 尾-glucosidase on cross-linked chitosan microsphere modified by L-lysine. J. Mol. Catal. B-Enzym. 2014,104(03): 29-34 (*鍏遍氳浣滆咃紝IF=2.82锛


    [25]Honghui Wang, Jiachuan Pan, Jing Wang, Nan Wang, Lin Xu, Qiang Li,Dan Wang*, Xiaohua Zhou*. 2014. Succinic acid production from xylose mother liquor by recombinant Escherichia coli strain. Biotechnol.Biotec.eq.2014,28(06): 1042-1049. (*鍏遍氳浣滆咃紝IF=1.097锛


    [24] Xuetuan Wei, Yinhua Zhou, Jingbang Chen, Dongbo Cai, Dan Wang, Gaofu Qi, Shouwen Chen. 2014. Efficient expression of nattokinase in Bacillus licheniformis: host strain construction and signal peptide optimization. J. Ind. Microbiol. Biot. 2014,42:.287-295. (IF=2.993锛


    [23] Caixia Wang, Qiang Li, Dan Wang, Jianmin Xing*. 2014. Improving the lactic鈥俛cid鈥俻roduction of Actinobacillus succinogenes by using a novel fermentation and separation integration system. Process Biochem.2014,49:1245-1250.(绗笁浣滆咃紝IF=2.883锛


    2013骞达細

    [22] 鐜嬩腹, 鐜嬫椽杈, 鐜嬬, 姹, 寮犳澃, 閭㈠缓姘. 2013. 绯犻啗鍜5-缇熺敳鍩虹碃閱涘澶ц偁鏉嗚弻浜т竵浜岄吀鐨勫奖鍝. 涓浗鐢熺墿宸ョ▼瀛︽姤, 2013,29(10): 1463-1472, (绗竴浣滆咃級


    [21] Jie Zhang, Xiaohua Zhou*, Dan Wang*, Luyan Sang, Yuanhong peng, Shiyu Tan&Qiang Li. 2013. High selective separation of flavonoids based on crosslinked chitosan resin grafted by quercetin. Sep. Sci. Technol.2013,48:2825-2833 (*鍏遍氳浣滆咃紝IF=1.354锛


    [20] Jie Zhang, Xiaohua Zhou*, Dan Wang*, Yingli Wang, Xing Zhou, Honghui Wang, Qiang Li, Shiyu Tan. Studies on the co-immobilized GOD/CAT on cross-linked chitosan microsphere modified by lysine. J. of Mol. Catal. B: Enzym.2013,97: 80-86 (*閫氳浣滆咃紝 IF=2.82锛


    [19] Jie Zhang, Xiaohua Zhou*, Zhen Zhou, Yu Su, Ruiya Zuo, Dan Wang*, Shiyu Tan. 2013. Preparation and characterization of a novel Ala-Gln dipeptide-Zn2+ complex. Asian J. Chem. 2013,25(08): 4461-4466 (*鍏遍氳浣滆咃紝IF=0.27锛


    [18] Jie Zhang, Xiaohua Zhou*, Dan Wang*, Yonghong Wang, Lin Chen, Shiyu Tan. 2013. Selective separation of L-aromatic amino acid by L-phenylalanine-crosslinked chitosan resin. Asian J. Chem.2013,25(16): 9050-9054 (*鍏遍氳浣滆咃紝IF=0.27锛


    [17] Dexi Wu, Qiang Li, Dan Wang, Yugang Dong. 2013. Enzymatic hydrolysis and succinic acid fermentation from steam-exploded corn stalk at high solid concentration by recombinant Escherichia coli. Appl. Biochem. Biotechnol.2013,170: 1942-1949 (绗笁浣滆咃紝IF=2.14锛


    [16] Qiang Li, Jiandu Lei, Rongyue Zhang, Juan Li, Jianmin Xing, Fei Gao, Fangling Gong*, Xaofeng Yan, Dan Wang, Zhiguo Su, Guanghui Ma*. 2013. Efficient decolorization and deproteinization using uniform polymer microspheres in the succinic acid biorefinery from bio-waste cotton (Gossypium hirsutum L.) stalks. Bioresour. Technol.2013,135: 604-609 (IF=6.67锛


    2012骞达細

    [15]Ziyu Song, Qiang Li, Dan Wang, Jie Zhang, and Jianmin Xing. 2012. A novel up-flow inner-cycle anoxic bioreactor (UIAB) system for the treatment of sulfide wastewater from purification of biogas. Water Sci. Technol.2012,65(06): 1033-1040 (绗笁浣滆咃紝IF=1.624锛


    [14] YunjianZhang, Qiang Li, Yuxiu Zhang, Dan Wang, Jianmin Xing*. 2012. Optimization of succinic acid fermentation with Actinobacillus succinogenes by response surface methodology (RSM). J. Zhejiang Univ. Sci. B. 2012,13(02): 103鈥110 (绗洓浣滆,IF=1.879锛


    2011骞达細

    [13] Dan Wang, Qiang Li, Maohua Yang, Yunjian Zhang, Zhiguo Su, Jianmin Xing*. 2011. Efficient production of succinic acid from corn stalk hydrolysates by a recombinant Escherichia coli with ptsG mutation. Process Biochem.2011,46: 365-371 (绗竴浣滆咃紝IF=2.883锛


    [12] Dan Wang, Qiang Li, Ziyu Song, Wei Zhou, Zhiguo Su, Jianmin Xing*.2011. High cell density fermentation via a metabolically engineered Escherichia coli for the enhanced production of succinic acid. J. Chem. Technol. Biotechnol.2011,86(04): 512-518 (绗竴浣滆咃紝IF=2.659锛


    [11] Qiang Li#, Dan Wang#, Guangyu Hu*, Jianmin Xing, Zhiguo Su. 2011. Integrated bioprocess for high-efficiency production of succinic acid in an expanded-bed adsoption system. Biochem. Eng. J.2011,56(06): 150-157 (#鍏卞悓涓浣滐紝IF=3.37锛


    [10] Zelong Wang, Dan Wang, Qiang Li, Wangliang Li, Huang Tang and Jianmin Xing. 2011. Enhanced biodesulfurization by expression of dibenzothiophene uptake genes in Rhodococcus erythropolis. World J. Microb. Biot.2011,27: 1965-1970 (绗簩浣滆咃紝IF=2.652锛


    2010骞村強浠ュ墠

    [9] Qiang Li, Dan Wang, Ziyu Song, Wei Zhou, Yong Wu, Jianmin Xing*, Zhiguo Su. 2010. Dual-phase fermentation enables Actinobacillus succinogenes 130Z(T) to be a potential role for high-level lactate production from the bioresource. Bioresour. Technol, 2010,101(04): 7665-7667(绗簩浣滆,IF=7.539锛


    [8] Dan Wang, Qiang Li, Yu Mao, Jianmin Xing*, Zhiguo Su. High-level鈥俿uccinic鈥俛cid鈥俻roduction and yield by lactose-induced expression of phosphoenolpyruvate carboxylase in ptsG mutant Escherichia coli. Appl. Microbiol. Biotechnol. 2010,87 2025-2035(绗竴浣滆匢F=3.059锛


    [7] Qiang Li, Dan Wang, Yong Wu, Maohua Yang, Wangliang Li, Jianmin Xing*, Zhiguo Su. 2010. Kinetic evaluation of products inhibition to鈥俿uccinic鈥俛cid鈥俻roducers Escherichia coli NZN111, AFP111, BL21, and Actinobacillus succinogenes 130Z(T). J. Microbiol 2010,48(03): 290-296(绗簩浣滆,IF=2.319锛


    [6] Qiang Li, Dan Wang, Yong Wu, Wangliang Li, Yunjian Zhang, Jianmin Xing*, Zhiguo Su. 2010. One step recovery of鈥俿uccinic鈥俛cid鈥俧rom fermentation broths by crystallization. Sep. Purif. Technol. 2010,72:294-300(绗簩浣滆,IF=5.107锛

     

    [5] Qiang Li, Maohua Yang, Dan Wang, Wangliang Li, Yong Wu, Yunjian Zhang, Jianmin Xing*, Zhiguo Su. 2010. Efficient conversion of crop stalk wastes into succinic acid production by Actinobacillus succinogenes. Bioresour. Technol. 2010,101: 3292-3294(绗笁浣滆,IF=7.539)


    [4] Qiang Li, Wangliang Li, Dan Wang, Binbin Liu, Huang Tang, Maohua Yang, Jianming Xing*, Zhiguo Su. 2010. pH Neutralization while鈥係uccinic鈥侫cid鈥侫dsorption onto Anion-Exchange Resins. Appl. Biochem. Biotechnol.2010,160: 438-445 (绗笁浣滆,IF=3.059锛


    [3] Dan Wang, Qiang Li, Wangliang Li, Jianming Xing*, Zhiguo Su. 2009. Improvement of succinate production by overexpression of a cyanobacterial carbonic anhydrase in Escherichia coli. Enzyme Microb. Technol.2009,45: 491-497(绗竴浣滆,IF=3.553)


    [2] Dan Wang, Qiang Li, Wangliang Li, Qingfen Liu, Jianming Xing*, Zhiguo Su. 2008. Overexpression of a cyanobacterial carbonic anhydrase in Escherichia coli enhances鈥俿uccinic鈥俛cid鈥俻roduction. J. Biotech. 2008,136(07): S26-27 (绗竴浣滆,IF=3.163锛


    [1] 鐜嬩腹锛屾瘺闆紝椹叞锛屾潕寮猴紝鏉庢湜鑹紝閭㈠缓姘戯紝鑻忓織鍥. 2009. 涔崇硸璇卞涓欓叜閰哥晶鍖栭叾鍩哄洜鍦ㄥぇ鑲犳潌鑿屼腑鐨勮〃杈惧強瀵逛竵浜岄吀浜ч噺鐨勫奖鍝.鐢熺墿宸ョ▼瀛︽姤.2009,25(9): 1338-1344(绗竴浣滆咃級



    涓撳埄

     

    [1] 鐜嬩腹, 闄堟湅, 鍚曟鎬, 鐔婂皬瓒, 鍛ㄦ、锛屽懆灏忓崕. 涓绉嶅弻鍔熻兘铻嶅悎铔嬬櫧鍙婂叾鐢熶骇D-鑻钩閰哥殑鏂规硶. 2019锛屼腑鍥斤紝涓撳埄鐢宠鍙: 201811631087.7 (绗竴鍙戞槑浜猴級

    [2] 鐜嬩腹, 寮犻洦锛岄檲鍧わ紝瀛欒獕宸. 閲嶇粍澶ц偁鏉嗚弻鍙戦叺浜х墿涓璍-鍝屽暥閰哥殑鍒嗙鎻愮函鏂规硶. 2017锛屼腑鍥斤紝涓撳埄鐢宠鍙: 201710287534.0 (绗竴鍙戞槑浜,宸叉巿鏉

    [3] 鐜嬩腹, 闄堝潳锛屽紶闆紝瀛欒獕宸. 閲嶇粍澶ц偁鏉嗚弻鍙戦叺浜х墿涓璍-鍝屽暥閰哥殑钀冨彇鍒嗙鏂规硶. 2017锛屼腑鍥斤紝涓撳埄鐢宠鍙: 201710288291.2 (绗竴鍙戞槑浜,宸叉巿鏉

    [4] 鐜嬩腹, 绫充箰锛岄檲浜斾節. 涓绉嶇敤浜庣敓浜у搶鍟剁敳閰哥殑閲嶇粍璐ㄧ矑锛屽熀鍥犲伐绋嬭弻鏍強鏂规硶. 2017锛屼腑鍥斤紝涓撳埄鐢宠鍙: 201710287538.9 (绗竴鍙戞槑浜,宸叉巿鏉

    [5] 鐜嬩腹, 鐜嬫椽杈, 姹, 鐜嬬, 鍛ㄥ皬鍗. 鏈ㄧ硸閱囩粨鏅舵瘝娑插埗澶囪憽钀勭硸閰哥殑鍙嶅簲鍒嗙鑰﹀悎瑁呯疆鍜屽伐鑹. 2013锛屼腑鍥斤紝涓撳埄鐢宠鍙: 201310312420.9 (绗竴鍙戞槑浜猴級

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