Members
Prof. Huang Kuan
福州大学合作导师
黄宽教授(硕导)主要从事绿色化工过程研究,具体包括酸性气体捕集、离子液体、多孔材料、膜分离、化工模拟与计算等。共发表Adv. Mater.、Angew. Chem. Int. Ed.、AIChE J.、ACS Catal.等SCI期刊50余篇申请中国发明专利11项,其中已授权2项。
Name:Huang Kuan(黄宽)
Position:特聘教授(硕导)
Research area:绿色化工,酸性气体捕集、离子液体、多孔材料、膜分离、化工模拟与计算
E-mail:huangk@ncu.edu.cn
 

教育经历:


2006.09-2010.06  南京大学应用化学专业       本科生
2010.09-2015.12  南京大学物理化学专业       博士生
2014.09-2015.09  美国田纳西大学化学系       联合培养博士生

 
工作经历:


2015.12-2017.06  美国田纳西大学化学系           博士后
2017.06-2020.09  南昌大学化工系                      教授

2020.09-至今        福州大学石油化工化工院       教授、学科方向带头人
   

主要学术研究成果:


共发表SCI论文50余篇,其中以第一作者或通讯作者在Adv Mater、Angew Chem Int Ed、AIChE J、Chem Eng Sci、ACS Catal、J Mater Chem A、Green Chem、Chem Commun、ACS Appl Mater Interfaces、J Membr Sci、Chem Eng J、Ind Eng Chem Res等化学化工领域国际一流期刊发表论文30余篇;申请中国发明专利11项,其中已授权2项
 

主要荣誉或奖励:


中华环保联合会“全国高校环保科技创意设计大赛”金奖(2011年)
南京大学化工系“系主任特别奖”(2012年)
南京大学博士研究生“校长特别奖学金”(2014年)
南京大学全新环保科技创新奖(2014年)
博士研究生“国家奖学金”(2014年)
南京大学“浦发银行”SCI论文奖(2014年)
国家公派留学奖学金(2014年)
南京大学优秀博士学位论文奖(2017年)
第四届全国离子液体与绿色过程学术会议“离子液体与绿色过程”新秀奖(2017年)
 

主持项目:


南昌大学高层次人才科研启动项目一项
江西省自然科学基金面上项目一项
江西省创新创业高层次人才“千人计划”创新人才长期项目青年类一项
 

代表性论文(第一或通讯作者):


1.    Liu F. J., Huang K.*, Wu Q., Dai S.* Solvent-free self-assembly to the synthesis of nitrogen-doped ordered mesoporous polymers for highly selective capture and conversion of CO2, Adv. Mater. 2017, 29(27): 201700445.
2.    Chen F. F.+, Huang K.+ (contributed equally), Zhou Y., Tian Z. Q., Zhu X., Tao D. J.*, Jiang D., Dai S.* New strategy for multi-molar absorption of CO2 by the activation of carboxylate group in amino acid ionic liquids, Angew. Chem. Int. Ed. 2016, 128(25): 7282-7286.
3.    Huang K., Cai D. N., Chen Y. L., Wu Y. T.*, Hu X. B.*, Zhang Z. B. Thermodynamic validation of 1-alkyl-3-methylimidazolium carboxylates as task-specific ionic liquids for H2S absorption, AIChE J. 2013, 59(6): 2227-2235.
4.    Huang K., Zhang X. M., Xu Y., Wu Y. T.*, Hu X. B.* Protic ionic liquids for the selective absorption of H2S from CO2: thermodynamic analysis, AIChE J. 2014, 60(12): 4232-4240. (Ranked as a “top-tier” contribution)
5.    Huang K.*, Zhang X. M., Hu X. B., Wu Y. T.* Hydrophobic protic ionic liquids tethered with tertiary amine group for highly efficient and selective absorption of H2S from CO2, AIChE J. 2016, 62(12): 4480-4490.
6.    Chen F. F., Huang K.*, Fan J. P., Tao D. J.* Chemical solvent in chemical solvent: a class of hybrid materials for effective capture of CO2, AIChE J. 2018, 64(2): 632-639.
7.    Liu F. J., Huang K.*, Jiang L. L.* Promoted adsorption of CO2 on amine-impregnated adsorbents by functionalized ionic liquids, AIChE J. 2018, in press, DOI: 10.1002/aic.16333.
8.    Huang K.*, Zhang X. M., Zhou L. S., Tao D. J.*, Fan J. P.* Highly efficient and selective absorption of H2S in phenolic ionic liquids: A cooperative result of anionic strong basicity and cationic hydrogen-bond donation, Chem. Eng. Sci. 2017, 173: 253-263.
9.    Huang K., Zhang X. M., Li Y. X., Wu Y. T.*, Hu X. B.* Facilitated separation of CO2 and SO2 through supported liquid membranes using carboxylate-based ionic liquids, J. Membr. Sci. 2014, 471: 227-236.
10.  Huang K.*, Zhang J. Y., Liu F. J.*, Dai S. Synthesis of porous polymeric catalysts for the conversion of carbon dioxide, ACS Catal. 2018, in press, DOI: 10.1021/acscatal.8b02151. (Invited review)
11.  Huang K., Feng X., Zhang X. M., Wu Y. T.*, Hu X. B.* Ionic liquids-mediated claus reaction: Highly efficient capture and conversion of hydrogen sulfide, Green Chem. 2016, 18: 1859-1863.
12.  Huang K., Chai S. H.*, Mayes R. T., Veith G. M., Sakwa-Novak M. A., Potter M. E., Jones C. W., Wu Y. T.*, Dai S.* An efficient low-temperature route to nitrogen-doping and activation of mesoporous carbon for CO2 capture, Chem. Commun. 2015, 51: 17261-17264.
13.  Huang K., Liu F. J.*, Dai S.* Solvothermal synthesis of hierarchically nanoporous organic polymers with tunable nitrogen functionality for highly selective capture of CO2, J. Mater. Chem. A 2016, 4: 13063-13070. (Highlighted on the Front Inside Cover)
14.  Liu F. J., Huang K.*, Ding S. M., Dai S.* One-step synthesis of nitrogen-doped graphene-like meso-macroporous carbons as highly efficient and selective absorbents for CO2 capture, J. Mater. Chem. A 2016, 4: 14567-14571.
15.  Huang K., Liang L., Chai S., Tumuluri U., Li M., Wu, Z., Sumpter B. G.*, Dai S.* Aminopolymer functionalization of boron nitride nanosheets for highly efficient capture of carbon dioxide, J. Mater. Chem. A 2017, 5: 16241-16248.
16.  Huang K., Liu F.*, Jiang L.*, Dai S. Aqueous and template-free synthesis of meso-macroporous polymers for highly selective capture and conversion of CO2, ChemSusChem 2017, 10(21): 4144-4149.
17.  Kong L. Y., Shan W. D., Han S. L., Zhang T., He L. C., Huang K.*, Dai S.* Interfacial engineering of supported liquid membranes by vapor cross-linking for enhanced separation of carbon dioxide, ChemSusChem 2018, 11(1): 185-192.
18.  Huang K., Lu J. F., Wu Y. T.*, Hu X. B.*, Zhang Z. B. Absorption of SO2 in aqueous solutions of mixed hydroxylammonium dicarboxylate ionic liquids, Chem. Eng. J. 2013, 215: 36-44.
19.  Huang K., Chen Y. L., Zhang X. M., Xia S., Wu Y. T.*, Hu X. B.* SO2 absorption in acid salt ionic liquids/sulfolane binary mixtures: experimental study and thermodynamic analysis, Chem. Eng. J. 2014, 237: 478-486.
20.  Huang K., Wu Y. T.*, Hu X. B.* Effect of alkalinity on absorption capacity and selectivity of SO2 and H2S over CO2: Substituted benzoate-based ionic liquids as the study platform, Chem. Eng. J. 2016, 297:265-276.
21.  Liu F. J., Huang K.*, Yoo C. J., Okonkwo C., Tao D. J., Jones C. W., Dai S.* Facilely synthesized meso-macroporous polymer as support of poly(ethyleneimine) for highly efficient and selective capture of CO2, Chem. Eng. J. 2017, 314: 466-476.
22.  Huang K., Wu Y. T.*, Dai S.* Sigmoid correlations for gas solubility and enthalpy change of chemical absorption of CO2, Ind. Eng. Chem. Res. 2015, 54(41): 10126-10133.
23.  Peng H. L., Zhong F. Y., Zhang J. B., Zhang J. Y., Wu P. K., Huang K.*, Fan J. P., Jiang L. L.* Graphitic carbon nitride functionalized with polyethyleneimine for highly effective capture of carbon dioxide, Ind. Eng. Chem. Res. 2018, 57(32): 11031-11038. (Highlighted on the Supplementary Cover)
24.  Huang K.*, Zhang J. Y., Hu X. B., Wu Y. T.* Absorption of H2S and CO2 in aqueous solutions of tertiary-amine functionalized protic ionic liquids, Energy Fuels 2017, 31(12): 14060-14069.
25.  Huang K., Chai S. H.*, Mayes R. T., Tan S., Jones C. W., Dai S.* Significantly increasing porosity of mesoporous carbon by NaNH2 activation for enhanced CO2 adsorption, Micro. Meso. Mater. 2016, 230: 100-108.
26.  Huang K., Chen Y. L., Zhang X. M., Ma S. L., Wu Y. T.*, Hu X. B.* Experimental study and thermodynamical modeling of the solubilities of SO2, H2S and CO2 in N-dodecylimidazole and 1,1’-[oxybis(2,1-ethanediyloxy-2,1-ethanediyl)]bis(imidazole): an evaluation of their potential application in the separation of acidic gases, Fluid Phase Equilibr. 2014, 378: 21-33.
27.  Huang K., Xia S., Zhang X. M., Chen Y. L., Wu Y. T.*, Hu X. B.* Comparative study of the solubilities of SO2 in five low volatile organic solvents (sulfolane, ethylene glycol, propylene carbonate, N-methylimidazole and N-methylpyrrolidone), J. Chem. Eng. Data 2014, 59(4): 1202-1212.
28.  Huang K.*, Peng H. L.* Solubilities of carbon dioxide in 1-ethyl-3-methylimidazolium thiocyanate, 1-ethyl-3-methylimidazolium dicyanamide, and 1-ethyl-3-methylimidazolium tricyanomethanide at (298.2 to 373.2) K and (0 to 300.0) kPa, J. Chem. Eng. Data 2017, 62(12): 4108-4116.
29.  Huang K., Cai D. N., Chen Y. L., Wu Y. T.*, Hu X. B.*, Zhang Z. B. Dual Lewis-base functionalization of ionic liquids for highly efficient and selective capture of H2S, ChemPlusChem 2014, 79(2): 241-249.
30.  Huang K., Wang G. N., Dai Y., Wu Y. T.*, Hu X. B.*, Zhang Z. B. Dicarboxylic acid salts as task-specific ionic liquids for reversible absorption of SO2 with low enthalpy change, RSC Adv. 2013, 3(37): 16264-16269.
31.  Huang K., Chen F. F., Tao D. J.*, Dai S.* Ionic liquid–formulated hybrid solvents for CO2 capture, Curr. Opin. Green Sustain. Chem. 2017, 5: 67-73. (Invited review)
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