汪偉博士 個(gè)人簡歷

2012年 第20屆青年教師職業(yè)技能培訓(xùn)“優(yōu)秀學(xué)員”稱號(hào)

2012年 四川省優(yōu)秀大學(xué)畢業(yè)生

2011年 教育部“博士研究生學(xué)術(shù)新人獎(jiǎng)”

2011年 寶鋼教育基金優(yōu)秀學(xué)生獎(jiǎng)

2011年 第一屆全國學(xué)生制藥工程研究壁報(bào)大賽全國一等獎(jiǎng)

2011年 陶氏化學(xué)暑期實(shí)習(xí)“Winner of 2011 Dow Summer Intern Business Competition”

2011年 四川大學(xué)“優(yōu)秀博士”稱號(hào)

2011年 四川大學(xué)“優(yōu)秀研究生”稱號(hào)

2010年 陶氏化學(xué)教育發(fā)展獎(jiǎng)學(xué)金“優(yōu)秀論文獎(jiǎng)”

2010年 四川大學(xué)“創(chuàng)新人才獎(jiǎng)”

2010年 四川大學(xué)“優(yōu)秀博士”稱號(hào)

2009年 “The 3rd Asian Conference on Colloid & Interface Science”國際會(huì)議優(yōu)秀論文獎(jiǎng)

2008年 四川大學(xué)“優(yōu)秀研究生”稱號(hào)

SCI收錄論文

[1] Liu Z., Wang W., Xie R., Ju X.J., Chu L.Y., 2016. Stimuli-responsive smart gating membranes.Chemical Society Reviews, 45(3): 460-475.(2014 Impact Factor = 33.383)

This work has been featured as theInside Front Cover

[2] Xie R., Chu L.Y., Deng J.G., 2008. Membranes and membrane processes for chiral resolution.Chemical Society Reviews, 37(6): 1243-1263.(2014 Impact Factor = 33.383)

[3] Wang W., Zhang M.J., Chu L.Y., 2014. Functional polymeric microparticles engineered from controllable microfluidic emulsions.Accounts of Chemical Research, 47(2): 373-384.(2014 Impact Factor = 22.323)

[4] Chu L.Y., Yamaguchi T., Nakao S., 2002. A molecular recognition microcapsule for environmental stimuli-responsive controlled-release.Advanced Materials, 14(5): 386-389.(2014 Impact Factor = 17.493)

This work was featured in theFront Cover

[5] Xia L.W., Xie R., Ju X.J., Wang W., Chen Q.M., Chu L.Y., 2013. Nano-structured smart hydrogels with rapid response and high elasticity.Nature Communications, 4: 2226, doi: 10.1038/ncomms3226.(2014 Impact Factor = 11.470)

Most-Read Articles ofNature Communications, rankedNo.18 in the Top Content of Most-Read Articles on August 6, 2013;No.16 on August 7, 2013;No.14 on August 8, 2013;No.10 on August 9, 2013;No.8 on August 10, 2013;No.8 on August 11, 2013;No.8 on August 12, 2013;No.8 on August 14, 2013;No.5 on August 15, 2013.

[6] Zhao H., Guo X., He S., Zeng X., Zhou X., Zhang C., Hu J., Wu X., Xing Z., Chu L.Y., He Y., Chen Q.M., 2014. Complex self-assembly of pyrimido[4,5-d]pyrimidine nucleoside supramolecular structures.Nature Communications,5: 3108, doi: 10.1038/ncomms4108.(2014 Impact Factor = 11.470)

[7] Wang W., Zhang M.J., Xie R., Ju X.J., Yang C., Mou C.L., Weitz D.A., Chu L.Y., 2013. Hole-shell microparticles from controllably evolved double emulsions.Angewandte Chemie International Edition, 52(31): 8084-8087.(2014 Impact Factor = 11.261)

Front Cover Story

[8] Chu L.Y., Utada A.S., Shah R.K., Kim J.W., Weitz D.A., 2007. Controllable monodisperse multiple emulsions.Angewandte Chemie International Edition, 46(47): 8970-8974.(2014 Impact Factor = 11.261)

This work has been featured in theFrontispiece;

Materials Today;

今日材料;

Chemical & Engineering News;

SEAS (School of Engineering and Applied Science) Soft Matter Wiki of Harvard University;

Poster for “New Concept in Microfluidics: Theory and Application (April 20, 2007, Harvard)”;

Poster (background image) for “32nd New England Complex Fluids Meeting (September 28, 2007, University of Connecticut)”;

“Complex Fluids” T-Shirt (image on the back) for “32nd New England Complex Fluids Meeting (September 28, 2007, University of Connecticut)”;

Flyer (optical micrographs for New England States fill) for “33rd New England Complex Fluids Meeting” (Harvard University, November 30, 2007);

Flyer (optical micrographs for New England States fill) for “37th New England Complex Fluids Meeting” (Harvard University, December 5, 2008);

Flyer (optical micrographs for New England States fill) for “49th New England Complex Fluids Meeting” (Harvard University, December 2, 2011);

Flyer (optical micrographs for New England States fill) for “53th New England Complex Fluids Meeting” (Harvard University, November 30, 2012);and

Flyer (optical micrographs for New England States fill) for “61st New England Complex Fluids Meeting” (Harvard University, December 5, 2014)

[9] Chu L.Y., Li Y., Zhu J.H., Chen W.M., 2005. Negatively thermoresponsive membranes with functional gates driven by zipper-type hydrogen-bonding interactions.Angewandte Chemie International Edition, 44(14): 2124-2127.(2014 Impact Factor = 11.261)

[10] Shah R.K., Shum H.C., Rowat A.C., Lee D., Agresti J.J., Utada A.S., Chu L.Y., Kim J.W., Fernandez-Nieves A., Martinez C.J., Weitz D.A., 2008. Designer emulsions using microfluidics.Materials Today, 11(4): 18-27.(2014 Impact Factor = 14.107)

Cover Story;

Invited Review;

Ranked No.11 in Top 25 Hottest Articles during 04/2008-06/2008

[11] Yao C., Liu Z., Yang C., Wang W., Ju X.J., Xie R., Chu L.Y., 2015. Poly(N-isopropylacrylamide)-clay nanocomposite hydrogels with responsive bending property as temperature-controlled manipulators.Advanced Functional Materials, 25(20): 2980-2991.(2014 Impact Factor = 11.805)

This work has been featured in theBack Cover

[12] Wei J., Ju X.J., Zou X.Y., Xie R., Wang W.,Liu Y.M., Chu L.Y., 2014. Multi-stimuli-responsive microcapsules for adjustable controlled-release.Advanced Functional Materials, 24(22): 3312-3323.(2014 Impact Factor = 11.805)

This work has been featured in theInside Front Cover

[13] Liu Z., Luo F., Ju X.J., Xie R., Luo T., Sun Y.M., Chu L.Y., 2012. Positively K-responsive membranes with functional gates driven by host-guest molecular recognition.Advanced Functional Materials, 22(22): 4742-4750.(2014 Impact Factor = 11.805)

This work has been featured in theFrontispiece

[14] Yang M., Chu L.Y., Wang H.D., Xie R., Song H., Niu C.H., 2008. A thermo-responsive membrane for chiral resolution.Advanced Functional Materials, 18(4): 652-663.(2014 Impact Factor = 11.805)

[15] Chu L.Y., Kim J.W., Shah R.K., Weitz D.A., 2007. Monodisperse thermo-responsive microgels with tunable volume-phase transition kinetics.Advanced Functional Materials, 17(17): 3499-3504.(2014 Impact Factor = 11.805)

This work has been featured in theFront Cover

[16] Qu J.B., Chu L.Y., Yang M., Xie R., Hu L., Chen W.M., 2006. A pH-responsive gating membrane system with pumping effects for improved controlled-release.Advanced Functional Materials, 16(14): 1865-1872.(2014 Impact Factor = 11.805)

This work has been featured in theFront Cover;and

High-Tech Materials Alert

[17] Xiao X.C., Chu L.Y., Chen W.M., Wang S., Li Y., 2003. Positively thermo-sensitive monodisperse core-shell microspheres.Advanced Functional Materials, 13(11): 847-852.(2014 Impact Factor = 11.805)

This work was featured in theFront Cover

[18] Lin S., Wang W., Ju X.J., Xie R., Liu Z., Yu H.R., Zhang C., Chu L.Y., 2016. Ultrasensitive microchip based on smart microgel for real-time on-line detection of trace threat analytes.Proceedings of the National Academy of Sciences of the United States of America (PNAS), 113(8): 2023-2028.(2014 Impact Factor = 9.674)

[19] Chu L.Y., Li Y., Zhu J.H., Wang H.D., Liang Y.J., 2004. Control of pore size and permeability of a glucose-responsive gating membrane for insulin delivery.Journal of Controlled Release, 97(1): 43-53.(2014 Impact Factor = 7.705)

[20] Liu Z., Luo F., Ju X.J., Xie R., Sun Y.M., Wang W., Chu L.Y., 2013. Gating membranes for water treatment: Detection and removal of trace Pb ions based on molecular recognition and polymer phase transition.Journal of Materials Chemistry A, 1(34): 9659-9671.(2014 Impact Factor = 7.443)

This work has been featured asInside Front Cover Story

[21] Liu Z., Liu L., Ju X.J., Xie R., Zhang B., Chu L.Y., 2011. K-recognition capsules with squirting release mechanisms.Chemical Communications, 47(45): 12283-12285.(2014 Impact Factor = 6.834)

This work has been featured inBack Cover;

Chemistry World;

Nano News Net; and

ChemRar

[22] Zhao H., He S.L., Yang M.L., Guo X.R., Xin G., Zhang C.Y., Ye L., Chu L.Y., Xing Z.H., Huang W., Chen Q.M., He Y., 2013. Micro-flowers changing to nano-bundle aggregates by translocation of the sugar moiety in Janus TA nucleosides.Chemical Communications, 49(36): 3742-3744.(2014 Impact Factor = 6.834)

[23] Yang X.L., Ju X.J., Mu X.T., Wang W., Xie R., Liu Z., Chu L.Y., 2016. Core-shell chitosan microcapsules for programmed sequential drug release.ACS Applied Materials & Interfaces,in press.(2014 Impact Factor = 6.723)

[24] He F., Wang W., He X.H., Yang X.L., Li M., Xie R., Ju X.J., Liu Z., Chu L.Y., 2016. Controllable multi-compartmental capsules with distinct cores and shells for synergistic release.ACS Applied Materials & Interfaces, in press.(2014 Impact Factor = 6.723)

[25] Shi K., Liu Z., Wei Y.Y., Wang W., Ju X.J., Xie R., Chu L.Y., 2015, Near-infrared light-responsive poly(N-isopropylacrylamide)/graphene oxide nanocomposite hydrogels with ultrahigh tensibility.ACS Applied Materials & Interfaces, 7(49): 27289-27298.(2014 Impact Factor = 6.723)

[26] He X.H., Wang W., Liu Y.M., Jiang M.., Wu F., Deng K., Liu Z., Ju X.J., Xie R., Chu L.Y., 2015. Microfluidic fabrication of bio-inspired microfibers with controllable magnetic spindle-knots for 3D assembly and water collection.ACS Applied Materials & Interfaces, 7(31): 17471-17481.(2014 Impact Factor = 6.723)

[27] Zhang M.J., Wang W., Yang X.L., Ma B., Liu Y.M., Xie R., Ju X.J., Liu Z., Chu L.Y., 2015. Uniform microparticles with controllable highly-interconnected hierarchical porous structures.ACS Applied Materials & Interfaces, 7(25): 13758-13767.(2014 Impact Factor = 6.723)

This work has been featured as theCover Story

[28] Jiang M.Y., Ju X.J., Fang L., Liu Z., Yu H.R., Jiang L., Wang W., Xie R., Chen Q.M., Chu L.Y., 2014. A novel smart microsphere with K-induced shrinking and aggregating property based on responsive host-guest system.ACS Applied Materials & Interfaces, 6(21): 19405-19415.(2014 Impact Factor = 6.723)

[29] Liu Y.M., Ju X.J., Xin Y., Zheng W.C., Wang W., Wei J., Xie R., Liu Z., Chu L.Y., 2014. A novel smart microsphere with magnetic core and ion-recognizable shell for Pb adsorption and separation.ACS Applied Materials & Interfaces, 6(12): 9530-9542.(2014 Impact Factor = 6.723)

[30] Mei L., He F., Zhou R.Q., Wu C.D., Liang R., Xie R., Ju X.J., Wang W., Chu L.Y., 2014. A novel intestinal-targeted Ca-alginate-based carrier for pH-responsive protection and release of Lactic acid bacteria.ACS Applied Materials & Interfaces, 6(8): 5962-5970.(2014 Impact Factor = 6.723)

[31] Deng N.N., Sun J., Wang W., Ju X.J., Xie R., Chu L.Y., 2014. Wetting-induced coalescence of nanoliter drops as microreactors in microfluidics.ACS Applied Materials & Interfaces, 6(6): 3817-3821.(2014 Impact Factor = 6.723)

[32] Liu Y.M., Wang W., Zheng W.C., Ju X.J., Xie R., Zerrouki D., Deng N.N., Chu L.Y., 2013. Hydrogel-based micro-actuators with remote-controlled locomotion and fast Pb-response for micromanipulation.ACS Applied Materials & Interfaces, 5(15): 7219-7226.(2014 Impact Factor = 6.723)

[33] Meng Z.J., Wang W., Liang X., Zheng W. C., Deng N.N., Xie R., Ju X.J., Liu Z., Chu L.Y., 2015. Plug-n-play microfluidic systems from flexible assembly of glass-based flow-control modules.Lab on a Chip, 15(8): 1869-1878..(2014 Impact Factor = 6.115)

[34] Sun Y.M., Wang W., Wei Y.Y., Deng N.N., Liu Z., Ju X.J., Xie R., Chu L.Y., 2014.In situfabrication of temperature- and ethanol-responsive smart membrane in microchip.Lab on a Chip, 14(14): 2418-2427.(2014 Impact Factor = 6.115)

This paper has been featured as“HOT Article” inLab on a Chip Blog

[35] Lin S., Wang W., Ju X.J., Xie R., Chu L.Y., 2014. A simple strategy forin situfabrication of smart hydrogel microvalve within microchannels for thermostatic control.Lab on a Chip, 14(15): 2626-2634.(2014 Impact Factor = 6.115)

This paper has been featured inInside Front Cover; and as

“HOT Article” inLab on a Chip Blog

[36] Deng N.N., Wang W., Ju X.J., Xie R., Weitz D.A., Chu L.Y., 2013. Wetting-induced formation of controllable monodisperse multiple emulsions in microfluidics.Lab on a Chip, 13(20): 4047-4052.(2014 Impact Factor = 6.115)

This work has been featured inBack Cover

[37] Deng N.N., Sun S.X., Wang W., Ju X.J., Xie R., Chu L.Y., 2013. A novel surgery-like strategy for droplet coalescence in microchannels.Lab on a Chip, 13(18): 3653-3657.(2014 Impact Factor = 6.115)

[38] Wang W., Xie R., Ju X.J., Luo T., Liu L., Weitz D.A., Chu L.Y., 2011. Controllable microfluidic production of multicomponent multiple emulsions.Lab on a Chip, 11(9): 1587-1592.(2014 Impact Factor = 6.115)

This work has been featured inBack Cover;

Chemistry World;

Micronews;

Lab on a Chip Blog;

Chemistry in Our Life;

I-Micronews; and

Most Read Articles in May 2011.

[39] Deng N.N., Meng Z.J., Xie R., Ju X.J., Mou C.L., Wang W., Chu L.Y., 2011. Simple and cheap microfluidic devices for preparation of monodisperse emulsions.Lab on a Chip, 11(23): 3963-3969.(2014 Impact Factor = 6.115)

This work has been featured inBack Cover; and

Lab on a Chip Blog

[40] Wahrmund J., Kim J.W., Chu L.Y., Wang C., Li Y., Fernandez-Nieves A., Weitz D.A., Krokhin A., Hu Z., 2009. Swelling kinetics of a microgel shell.Macromolecules, 42(23): 9357-9365.(2014 Impact Factor = 5.800)

[41] Utada A.S., Chu L.Y., Fernandez-Nieves A., Link D.R., Holtze C., Weitz D.A., 2007. Dripping, jetting, drops and wetting: The magic of microfluidics.MRS Bulletin, 32(9): 702-708.(2014 Impact Factor = 5.667)

“Technical Features” article;

This work was featured in theFront Cover

[42] Yu H.R., Ju X.J., Xie R., Wang W., Zhang B., Chu L.Y., 2013. Portable diagnosis method of hyperkalemia using potassium-recognizable poly(N-isopropylacrylamide-co-benzo-15-crown-5-acrylamide) copolymers.Analytical Chemistry, 85(13): 6477-6484.(2014 Impact Factor = 5.636)

.

l主持項(xiàng)目

[1] 國家自然科學(xué)基金面上項(xiàng)目“惠斯通橋型微流控抗原檢測(cè)芯片的構(gòu)建及其微流體流動(dòng)特性研究”（21576167），2016—2019，項(xiàng)目負(fù)責(zé)人；

[2] 國家自然科學(xué)基金項(xiàng)目“仿金毛狗蕨茸毛微結(jié)構(gòu)的殼聚糖超細(xì)纖維膜的制備與性能研究”（21306117），2014—2016，項(xiàng)目負(fù)責(zé)人；

[3] 教育部高等學(xué)校博士學(xué)科點(diǎn)專項(xiàng)科研基金新教師基金項(xiàng)目“微型竹狀結(jié)構(gòu)超細(xì)纖維的微流控制備及其性能研究”(20130181120063)，2014—2016，項(xiàng)目負(fù)責(zé)人；

[4] 四川大學(xué)優(yōu)秀青年學(xué)者科研基金項(xiàng)目“微流控法構(gòu)建結(jié)構(gòu)可控的微尺度高分子功能材料”(2014SCU04A03)，2014—2016，項(xiàng)目負(fù)責(zé)人；

[5] 廣東省功能軟凝聚態(tài)物質(zhì)重點(diǎn)實(shí)驗(yàn)室開放課題基金項(xiàng)目（201501），2015—2016，項(xiàng)目負(fù)責(zé)人；

[6] 四川大學(xué)青年教師科研啟動(dòng)基金項(xiàng)目（2012SCU11073），2012—2013，項(xiàng)目負(fù)責(zé)人；

l主研項(xiàng)目

[7] 國家自然科學(xué)基金重點(diǎn)項(xiàng)目“多相微分散體系流動(dòng)與傳遞性能的基礎(chǔ)研究”（20136002）子課題，2011—2014，子課題第一主研

[8] 國家杰出青年科學(xué)基金項(xiàng)目“環(huán)境響應(yīng)型智能膜材料創(chuàng)新與膜過程強(qiáng)化基礎(chǔ)研究”（20825622），2009—2012，第三主研

[9] 全國優(yōu)秀博士學(xué)位論文作者專項(xiàng)資金資助項(xiàng)目“微流控構(gòu)建微尺度乳液相界面及制備新型微球微囊材料的基礎(chǔ)研究”（201163），2011—2015，第四主研

[10] 國家自然科學(xué)基金項(xiàng)目“環(huán)境響應(yīng)型特洛伊木馬式微囊膜可控制備與控釋傳質(zhì)機(jī)理”（21076127），2011—2013，第四主研

[11] 國家自然科學(xué)基金項(xiàng)目“固載溫敏性微球的智能復(fù)合膜的制備與親和分離性能研究”（20806049），2009—2011，主研

[12] 教育部高等學(xué)校博士學(xué)科點(diǎn)專項(xiàng)科研基金新教師基金項(xiàng)目“新型溫敏親和分離智能復(fù)合膜的研究”（200806101045），2009—2011，主研

[13] 國家重點(diǎn)基礎(chǔ)研究發(fā)展計(jì)劃（973計(jì)劃）課題“智能膜材料設(shè)計(jì)與制備科學(xué)研究”（2009CB623407），2009—2013，主研

[14] 國家自然科學(xué)基金重點(diǎn)項(xiàng)目“微流控構(gòu)建微尺度相界面及制備新型功能材料的基礎(chǔ)研究（21136006），2012—2016，主研

1) 夏烈文, 褚良銀, 巨曉潔, 謝銳, 汪偉. “高分子微凝膠復(fù)合結(jié)構(gòu)的高強(qiáng)度水凝膠制備方法”. 中國發(fā)明專利申請(qǐng)專利申請(qǐng)日2012.5.7.

2) 汪偉, 褚良銀, 謝銳, 巨曉潔, 羅濤, 劉麗. “制備單分散多組分多重乳液的微流控方法及裝置”. 中國發(fā)明專利申請(qǐng)X, 專利申請(qǐng)日2011.3.20.

3) 劉麗, 褚良銀, 楊建平, 汪偉, 巨曉潔, 謝銳. “具有pH突釋特性的殼聚糖中空和核殼微囊的制備方法”. 中國發(fā)明專利申請(qǐng), 專利申請(qǐng)日2011.2.24.

4) 汪偉, 褚良銀, 劉麗, 巨曉潔, 謝銳. “熱引發(fā)自爆式磁靶向微囊及其制備方法”. 中國發(fā)明專利專利申請(qǐng)日2009.7.13, 專利授權(quán)日2011. 7.1.