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專家信息:
黃立民,男,1970年4月生,江蘇人,南方科技大學化學系教授,樹仁書院院長。曾任美國哥倫比亞大學納米中心和紐約城市大學能源研究所研究員。研究納米材料在能源和電子方面的應用。榮獲科學中國人2014年度人物、深圳市海外高層次人才“孔雀計劃”稱號和深圳市師德標兵稱號。
黃立民教授,分別于1991、1994和1997年獲得復旦大學應用化學學士、物理化學碩士和物理化學博士學位。2000-2002、2002-2005年分別于美國加州大學河濱分校、哥倫比亞大學任博士后研究員;2005-2009年任美國哥倫比亞大學納米研究中心助理研究員,2009-2012年美國紐約城市大學能源研究所高級研究員。2012-至今任南方科技大學化學系教授,樹仁書院院長,曾擔任化學系副主任和樹仁書院副院長。黃立民博士的研究側(cè)重于納米材料(包括復合氧化物納米晶、納米介電材料、分子篩和介孔材料、碳納米材料、二維材料)的合成及其在介電儲能、化學儲能、催化(光電催化)和柔性可打印器件等方面的應用。已發(fā)表論文 96 篇,其中頂級期刊論文 9 篇(包括 3 篇Science, 2 篇 J. Am. Chem. Soc., 2 篇 Adv. Mater.和 2 篇 Phys. Rev. Lett.)。有關(guān)科研成果入選 IEEE 1906.1 國際標準,曾被美國商業(yè)周刊、英國新科學家、科學美國人和麻省理工技術(shù)評論等雜志報道。已有兩項美國專利被企業(yè)使用。曾獲得美國材料研究學會的最佳海報獎(2007年)和上海市科學技術(shù)進步獎一等獎(2005年)等獎勵。
教育經(jīng)歷:
1997年,獲得復旦大學物理化學博士學位;
1994年,獲得復旦大學物理化學碩士學位;
1991年,獲得復旦大學應用化學學士學位。
工作經(jīng)歷
1997年至2000年,復旦大學,講師。
2000年至2002年,美國加州大學河濱分校,博士后研究員。
2002年至2005年,美國哥倫比亞大學,博士后研究員。
2005年至2009年,美國哥倫比亞大學,助理研究員。
2009年至2011年,美國紐約城市大學,研究員。
現(xiàn)任南方科技大學化學系教授。
學術(shù)兼職及社會任職:
1. 美國化學學會員。
2. 美國材料學會員。
3. 國際分子篩學會會員。
4. 南方科技大學湖北招生組組長。
5. 曾任哥倫比亞大學納米研究中心副研究科學家、布魯海文國家實驗室客座研究人員(兼)和紐約城市大學能源研究所和城市學院化學系的高級研究科學家。
主講課程:
《物理化學》(秋季)
《納米材料合成與技術(shù)》(春季)
培養(yǎng)研究生情況:
博士后2名,碩士研究生2名,博士研究生4名,畢業(yè)生6名。
招聘情況:
招聘條件:化學,材料科學或相關(guān)專業(yè)博士畢業(yè); 熟悉金屬,氧化物納米粒子或介孔材料的合成和表征,具有扎實的電化學基礎(chǔ),熟悉電鏡技術(shù)和電化學工作站的使用,對電化學生物傳感器,太陽能或電池研究有經(jīng)驗者優(yōu)先;具備優(yōu)良的英文閱讀、寫作和口頭交流能力,在國際SCI刊物發(fā)表過文章;工作認真負責,具有良好的溝通能力和團隊合作精神。
教學項目:
1. 廣東省高校教學質(zhì)量及教學改革工程項目;
2. 廣東省高等教育教學改革項目。
研究方向:
1. 納米材料,催化,能源,生物傳感。
2. 單分散納米金屬和氧化物、 納米介電材料、納米孔材料、碳納米材料的合成、表征及其光、電、磁和催化性能。
3. 探索可實現(xiàn)大規(guī)模生產(chǎn)納米材料的綠色合成方法。
4. 構(gòu)建多功能納米系統(tǒng)及其在能源利用,催化,環(huán)保,生物醫(yī)學檢測及柔性電子器件方面的應用。
研究領(lǐng)域:
納米材料的合成及其在介電儲能、化學儲能、催化、光電催化和柔性可打印器件等方面的應用。
承擔科研項目情況:
1. 可用于打印的鈣鈦礦復合氧化物膠體納米晶的制備,深圳市科技計劃項目-基礎(chǔ)研究;
2. 基于復合納米粒子的低頻太赫茲乳腺造影成像關(guān)鍵技術(shù)研究,深圳市科技計劃項目-技術(shù)攻關(guān);
3. 廣東省“珠江人才計劃”引進第六批創(chuàng)新創(chuàng)業(yè)團隊項目;
4. 深圳市清潔能源研究院 ,"光催化制氫材料與器件研發(fā)";
5.“單壁碳納米管的定向生長,表征及其在電子學方面的應用”;
6. “可打印單分散納米材料的合成、表征,多功能納米體系的構(gòu)建, 應用及產(chǎn)品研發(fā)”;
7. 在紐約城市大學能源所和南科大工作期間,與哥倫比亞大學和加州大學伯克利分校的同行們合作從事美國能源部先進能源項目研究機構(gòu)資助的 “Metacapacitors ”研發(fā)項目(1.57百萬美元)。
科研成果:
1. 在哥倫比亞大學納米中心工作期間,黃立民與IBM TJ Watson研究中心的科學家合作開發(fā)了以金屬薄膜和介孔材料為基礎(chǔ)的新型催化劑,乙醇為碳源的定向合成獨立單壁碳納米管的化學氣相沉積方法,成功地合成出厘米級長度的可定位定向,可自由懸空的獨立單壁碳納米管,這使得哥倫比亞大學納米中心成為世界上首批掌握該定向合成技術(shù)的研究中心,獲得了美國科學院院士、國際納米權(quán)威Louis Brus教授的高度贊譽。
2. 通過與布魯海文國家實驗室 (Brookhaven National Lab) 合作,成功地實現(xiàn)了用電鏡和光譜技術(shù)對定向懸空的單根單壁碳納米管進行原位表征,從而首次將碳納米管的手性結(jié)構(gòu)、電子學性能與光學性質(zhì)關(guān)聯(lián)起來看,讓世界知曉可定位定向的單壁碳納米管在構(gòu)建多功能的納米/微電子器件方面提供無可比擬的優(yōu)越性。
3. 團隊從理論上成功地建立了研究鈣鈦礦納米晶體材料介電頻率響應的理論模型,實驗上首次設(shè)計合成了可打印、可聚合的鈣鈦礦復合氧化物納米晶體溶液,全面提升納米介電薄膜的介電性能和機械強度。該項成果為開發(fā)可快速打印高介電常數(shù)納米材料薄膜技術(shù)及其在LED照明、電容儲能、納米發(fā)電和柔性有機電子學等方面的應用,提供了廣闊的工業(yè)化前景。
4. 由黃立民課題組開發(fā)合成的系列性能可調(diào)的穩(wěn)定的鈣鈦礦型復合氧化物納米晶體及其溶液的綠色技術(shù),可應用于大規(guī)模的合成。基于這種穩(wěn)定的溶液,課題組已經(jīng)著手開發(fā)一種可編程控制的打印(包括3D打印)技術(shù),在常溫/低溫下可以實現(xiàn)高通量地定點沉積納米功能體系,該技術(shù)尤其匹配于在柔性載體上有機電子器件的構(gòu)建。該復合材料也可用于燃料電池和太陽能轉(zhuǎn)化的電極材料和電催化劑,目標是以其穩(wěn)定高效及價廉等優(yōu)異性能取代昂貴的貴金屬催化材料,開辟廣闊的應用前景。
發(fā)明專利:
已獲授權(quán)或申請美國專利6項,國際專利2項和中國專利2項。
[1]Preparing nanoparticles and carbon nanotubes, O'Brien; Stephen, Huang; Limin, White; Brian Edward, Wind; Samuel Jonas, United States Patent 9,108,850, August 18, 2015.
[2] “Multi-metal Oxide Ceramic Nanomaterial” O'Brien Stephen; Liu; Shuangyi; Huang Limin; United States Patent Application 2015/0094199 A1, Pub. Date: April 2, 2015
[3]“Methods for preparing single-walled carbon nanotubes”, O'Brien, Stephen; Huang, Limin; White, Brian Edward, United States Patent 8,367,034B2. Feb. 5, 2013
[4] “Prevention of Hydrophobic Dewetting through Nanoparticle Surface Treatment” Van Tassell, Barry; Steingart, Daniel; Leland, Eli S.; Chando, Paul; Huang, Limin; O'Brien, Stephen, United States Patent Application US 20130224473 A1, Pub. Date: Aug. 29, 2013
[5]“Dielectric Film with Nanoparticles”, Huang, Limin; O'Brien, Stephen; Liu, Shuangyi, United States Patent Application US 20130207231A1, Pub. Date: August 15, 2013; US provisional patent, Jan. 2012.
[6] “Metal oxide nanocrystals: Preparation and uses”, Stephen O’Brien, Limin Huang, Zhuoying Chen, Ioannis Kymissis, Zhang Jia, US2010/0135937A1, publication date: 6/3/2010, filed on 9/24/2009.
[7]Metal oxide nanocrystals: Preparation and uses, Stephen O’Brien, Limin Huang, Zhuoying Chen, WO/2008/118422 A1, publication date: Oct. 2, 2008.
[8]Preparing nanoparticles and carbon nanotubes, Stephen O’Brien, Limin Huang, Brian White, Shalom Wind, US 2009/0075035 A1, publication data: 3/19/2009, filed on 10/7/2008.
[9]Methods for preparing metal oxide nanoparticles, Stephen O’Brien, Limin Huang, US 2009/0297626A1, publication date: 12/3/2009, filed on 11/5/2007.
[10]Methods for preparing single-walled carbon nanotubes, Stephen P. O’Brien, Limin Huang,Brian White, International Publication Number: WO/2006/004599 A2, publication date: Jan. 12, 2006.
[11]Methods for preparing single-walled carbon nanotubes, Stephen P. O’Brien, Limin Huang, Brian White, US 2008/0069760 A1, publication date: 3/20/2008, filed on 6/3/2005.
發(fā)明公開:
[1]黃立民, 趙云, 張桓瑜. 一種無鋰負極及其制備方法與鋰硫電池[P]. 廣東省: CN118039784A, 2024-05-14.
[2]黃立民, 莊偉滿, 陳倩雯. 一種水系鋅金屬電池的電解液及其應用[P]. 廣東省: CN117673500A, 2024-03-08.
[3]黃立民, 莊偉滿, 陳倩雯. 一種鋅金屬電池電解液及其制備方法與應用[P]. 廣東省: CN115911596A, 2023-04-04.
[4]黃立民, 陳倩雯, 莊偉滿. 一種金屬電池用液態(tài)電解液及其制備方法與金屬電池[P]. 廣東省: CN115295885A, 2022-11-04.
[5]黃立民, 陳倩雯, 張?zhí)镄? 鈉金屬電池集流體及其制備方法與應用[P]. 廣東省: CN114032532A, 2022-02-11.
[6]黃立民, 曾磊. 一種快速降解污染物的g#C3N4復合光催化劑及其制備方法[P]. 廣東: CN106914266A, 2017-07-04.
[7]黃立民, 劉雙翼. 鈣鈦礦型復合氧化物納米晶體膠的制備方法[P]. 廣東: CN104941539A, 2015-09-30.
[8]黃立民, 劉雙翼 “可用于打印的鈣鈦礦型復合氧化物膠體納米晶的制備”, 中國發(fā)明專利申請?zhí)?201510321350.2. 申請日: 2015-06-12.
[9]趙東元, 孫錦玉, 周亞明, 苗蕾, 黃立民. 一種大孔微孔多級有序孔材料的制備方法[P]Manufacture of multistep macro-microporous materials. 上海: CN1342608, 2002-04-03.
[10]黃立民, 李全芝, 陳海鷹. 復合中微孔分子篩及其合成方法[P]Composite meso-microporous materials and their syntheses. 上海: CN1208718, 1999-02-24.
發(fā)明授權(quán):
[1]黃立民, 莊偉滿, 陳倩雯. 一種鋅金屬電池電解液及其制備方法與應用[P]. 廣東省: CN115911596B, 2023-09-01.
[2]黃立民, 陳倩雯, 張?zhí)镄? 鈉金屬電池集流體及其制備方法與應用[P]. 廣東省: CN114032532B, 2023-06-16.
[3]黃立民, 劉雙翼. 鈣鈦礦型復合氧化物納米晶體膠的制備方法[P]. 廣東省: CN104941539B, 2020-09-18.
[4]黃立民, 曾磊. 一種快速降解污染物的g-C3N4復合光催化劑及其制備方法[P]. 廣東省: CN106914266B, 2020-09-08.
[5]趙東元, 孫錦玉, 周亞明, 苗蕾, 黃立民. 一種大孔微孔多級有序孔材料的制備方法[P]. 上海市: CN1176017C, 2004-11-17.
[6]黃立民, 李全芝, 陳海鷹. 復合中微孔分子篩及其合成方法[P]. 上海市: CN1101339C, 2003-02-12.
在國際國內(nèi)刊物上已發(fā)表文章130余篇(包括3篇Science),文章已被他人引用3700次以上,h指數(shù)為36。參與國際會議交流報告57篇。
英文代表性論文:
[132]Zhao, Yun; Zhang, Huanyu; Ye, Hualin; Zhao, Dan*; Lee, Jim Yang*; Huang, Limin*.Phosphorous-Based Heterostructure for the Effective Catalysis of Polysulfide Reactions with Phase Changes in High-Sulfur-Loading Lithium-Sulfur Batteries.Small Methods, 2024, 8(3).
[131]Zhuang, Weiman; Chen, Qianwen; Wan, Jianyong; Hou, Zhen*; Huang, Limin*.Correlating Buffering Agents' Premier pH with Interface Stability Toward Long-Term Zn Metal Anodes.Small, 2024.
[130]Pu, Yayun; Liu, Yufei; Tang, Xiaosheng; Huang, Qiang*; Huang, Limin*.Fast and in situ releasing of active species confined in two-dimensional layers for superior overall electrochemical water splitting.APPLIED CATALYSIS B-ENVIRONMENT AND ENERGY, 2024, 341: 123319.
[129]Sun, Zongzhao*; Tan, Yueyang; Shi, Xinkai; Li, Bingwen*; Wang, Xinfang; Wen, Jiangwei*; Huang, Limin*; Lau, Woon-Ming.General Method to Introduce π-Electrons into Oxygen-Doped Porous Carbon Nitride for Photocatalytic Hydrogen Evolution and Toluene Oxidation.ACS Sustainable Chemistry and Engineering, 2024, 12(2): 1051-1061.
[128]Pu, Yayun; Wang, Liang; Jia, Lu; Li, Xiangsheng; Lu, Wenqiang*; Huang, Limin*.Identifying the in situ protection role of MnO2 nanosheets on Co oxide for superior water oxidation.Applied Surface Science, 2023, 636: 157647.
[127]Pu, Yayun; Jia, Lu; Huang, Qiang; Tang, Xiaosheng; Rodriguez, Paramaconi*; Huang, Limin*.Investigation on the surface charge separation in Pt-supported morphology-related-TiO2 and its effect on water splitting.Journal of Colloid and Interface Science, 2023, 646: 815-823.
[126]Zhao, Yun; Huang, Limin*; Zhao, Dan*; Lee, Jim Yang*.Fast Polysulfide Conversion Catalysis and Reversible Anode Operation by A Single Cathode Modifier in Li-Metal Anode-Free Lithium-Sulfur Batteries.Angewandte Chemie - International Edition, 2023, 62(36).
[125]Zhong, Ruyi; Wu, Puwei; Wang, Qi; Zhang, Xiting; Du, Lei; Liu, Yunhua; Yang, Huakang; Gu, Meng; Zhang, Z. Conrad; Huang, Limin*; Ye, Siyu*.Room-temperature fabrication of defective CoOxHy nanosheets with abundant oxygen vacancies and high porosity as efficient 5-hydroxymethylfurfural oxidation electrocatalysts.Green Chemistry, 2023, 25(12): 4674-4684.
[124]Jiang, Yabin; Cao, Chi; Tan, Yueyang; Chen, Qianwen; Zeng, Lei*; Yang, Wensheng*; Sun, Zongzhao; Huang, Limin*.A facile method to introduce a donor-acceptor system into polymeric carbon nitride for efficient photocatalytic overall water splitting.Journal of Materials Science & Technology, 2023, 141: 32-41.
[123]Chen, Qianwen; Zhuang, Weiman; Hou, Zhen; Jiang, Yabin; Wan, Jianyong; Zhang, Tianxu; Zhao, Yun; Huang, Limin*.A Dual-Function Additive to Regulate Nucleation Behavior and Interfacial Chemistry for Ultra-Stable Na Metal Anodes beyond One Year.Advanced Functional Materials, 2023, 33(4).
[122]Zhuang, Weiman; Chen, Qianwen; Hou, Zhen; Sun, Zongzhao; Zhang, Tianxu; Wan, Jianyong; Huang, Limin*.Examining Concentration-Reliant Zn Deposition/Stripping Behavior in Organic Alcohol/Sulfones-Modified Aqueous Electrolytes.Small, 2023.
[121]Zhao, Yun; Ye, Hualin; Zhang, Huanyu; Zhao, Dan; Huang, Limin*; Lee, Jim Yang*.The beneficial effects of black phosphorous modification of the anode current collector in Li-metal free Li2S-based batteries.Materials Today Energy, 2022, 30: 101179.
[120]Zeng, Lei; Chen, Jie-Wei; Zhong, Lixiang; Zhen, Wenlong; Tay, Yee Yan; Li, Shuzhou; Wang, Yang-Gang*; Huang, Limin*; Xue, Can*.Synergistic effect of Ru-N4 sites and Cu-N3 sites in carbon nitride for highly selective photocatalytic reduction of CO2 to methane.Applied Catalysis B: Environmental , 2022, 307: 121154.
[119]Sun, Zongzhao; Dong, Haozhe; Yuan, Qi; Tan, Yueyang; Wang, Wu; Jiang, Yabin; Wan, Jianyong; Wen, Jiangwei; Yang, Jianjing*; He, Jiaqing; Cheng, Tao; Huang, Limin*.Self-supported hierarchical crystalline carbon nitride arrays with triazine-heptazine heterojunctions for highly efficient photoredox catalysis.Chemical Engineering Journal, 2022, 435(P2): 134865.
[118]Jiang, Yabin; Fang, Shaofan; Cao, Chi; Hong, Enna; Zeng, Lei*; Yang, Wensheng; Huang, Limin; Yang, Chunzhen.Enhanced light harvesting and charge separation of carbon and oxygen co-doped carbon nitride as excellent photocatalyst for hydrogen evolution reaction.Journal of Colloid and Interface Science, 2022, 612: 367-376.
[117]Chen, Qianwen; Zhang, Tianxu; Hou, Zhen; Zhuang, Weiman; Sun, Zongzhao; Jiang, Yabin; Huang, Limin*.Large-scale sodiophilic/buffered alloy architecture enables deeply cyclable Na metal anodes.Chemical Engineering Journal, 2022, 433(P2): 133270.
[116]Jiang, Yabin; Sun, Zongzhao; Chen, Qianwen; Cao, Chi; Zhao, Yun; Yang, Wensheng; Zeng, Lei*; Huang, Limin*.Fabrication of 0D/2D TiO2 Nanodots/g-C3N4 S-scheme heterojunction photocatalyst for efficient photocatalytic overall water splitting.Applied Surface Science, 2022, 571: 151287.
[115]Yang, Xuming; Zhu, Yuanmin; Wu, Duojie; Li, Menghao; He, Yaqi; Huang, Limin; Gu, Meng.Yolk-Shell Antimony/Carbon: Scalable Synthesis and Structural Stability Study in Sodium Ion Batteries.Advanced Functional Materials, 2022, 2111391.
[114]Wang, Wu; Cui, Juan; Sun, Zongzhao; Xie, Lin; Mu, Xiaoke; Huang, Limin; He, Jiaqing*。Direct Atomic-Scale Structure and Electric Field Imaging of Triazine-Based Crystalline Carbon Nitride.Advanced Materials, 2021, 33(48): 2106359.
[113]Zeng, Lei; Zhao, Yun; Jia, Xinghang; Jiang, Yabin; Huang, Limin*.Surface oxygenous groups modified graphitic carbon nitride with significant positive shift of valence band for efficient photocatalytic oxidation.Applied Surface Science, 2021, 563: 150070.
[112]Guo, Qing; Feng, Xiyuan; Zhang, Z. Conrad; Huang, Limin.Interfacial Interactions between Co-Based Cocatalysts and Semiconducting Light Absorbers for Solar-Light-Driven Redox Reactions.Solar RRL, 2021, 5(8): 2100234.
[111]Sun, Zongzhao; Tan, Yueyang; Wan, Jianyong; Huang, Limin.In-depth Understanding of the Effects of Intramolecular Charge Transfer on Carbon Nitride Based Photocatalysts dagger.Chinese Journal of Chemistry, 2021, 39(7): 2044-2053.
[110]Feng, Xiyuan; Wang, Shuangpeng; Guo, Qing; Zhu, Yudong; Xiu, Jingwei; Huang, Limin; Tang, Zikang; He, Zhubing.Dialkylamines Driven Two-Step Recovery of NiOx/ITO Substrates for High-Reproducibility Recycling of Perovskite Solar Cells.Journal of Physical Chemistry Letters, 2021, 12(19): 4735-4741.
[109]Yang, Jianjing; Sun, Zongzhao; Yan, Kelu; Dong, Haozhe; Dong, Hongyan; Cui, Jiakai; Gong, Xutao; Han, Shilin; Huang, Limin*; Wen, Jiangwei*.Single-atom-nickel photocatalytic site-selective sulfonation of enamides to access amidosulfones dagger.Green Chemistry, 2021, 23(7): 2756-2762.
[108]Pu, Yayun; Celorrio, Veronica; Joerg, M. Stockmann; Sobol, Oded; Sun, Zongzhao; Wang, Wu; Lawrence, Matthew J.; Radnik, Jorg; Russell, Andrea E.; Hodoroaba, Vasile-Dan; Huang, Limin; Rodriguez, Paramaconi.Surface galvanic formation of Co-OH on Birnessite and its catalytic activity for the oxygen evolution reaction.Journal of Catalysis, 2021, 396: 304-314.
[107]Feng, Xiyuan; Guo, Qing; Xiu, Jingwei; Ying, Zhiqin; Ng, Kar Wei; Huang, Limin; Wang, Shuangpeng; Pan, Hui; Tang, Zikang; He, Zhubing.Close-loop recycling of perovskite solar cells through dissolution-recrystallization of perovskite by butylamine.CELL REPORTS PHYSICAL SCIENCE, 2021, 2(2): 100341.
[106]Feng, Kui; Wu, Ziang; Su, Mengyao; Ma, Suxiang; Shi, Yongqiang; Yang, Kun; Wang, Yang; Zhang, Yujie; Sun, Weipeng; Cheng, Xing; Huang, Limin; Min, Jie; Woo, Han Young; Guo, Xugang.Highly Efficient Ternary All-Polymer Solar Cells with Enhanced Stability.Advanced Functional Materials, 2021, 31(5): 2008494.
[105]Guo, Qing; Liang, Fei; Sun, Zongzhao; Wang, Yang; Li, Xu-Bing; Xia, Shu-Guang; Zhang, Z. Conrad; Huang, Limin*; Wu, Li-Zhu.Optimal d-band-induced Cu3N as a cocatalyst on metal sulfides for boosting photocatalytic hydrogen evolution.Journal of Materials Chemistry A, 2020, 8(43): 22601-22606.
[104]Chen, Qianwen; He, Heng; Hou, Zhen; Zhuang, Weiman; Zhang, Tianxu; Sun, Zongzhao; Huang, Limin*.Building an artificial solid electrolyte interphase with high-uniformity and fast ion diffusion for ultralong-life sodium metal anodes.Journal of Materials Chemistry A, 2020, 8(32): 16232-16237.
[103]Wang, Wu; Sun, Zongzhao; Feng, Jianghe; Cui, Juan; Huang, Limin*; He, Jiaqing*.Three-dimensional Insight on Formation and Light-harvesting of Hollow-structure Carbon Nitride.ACS Applied Energy Materials, 2020, 3(7): 7020-7029.
[102]Pu, Yayun; Lawrence, Matthew J.; Celorrio, Veronica; Wang, Qi; Gu, Meng; Sun, Zongzhao; Jacome, Leonardo Agudo; Russell, Andrea E.; Huang, Limin*; Rodriguez, Paramaconi*.Nickel confined in 2D earth-abundant oxide layers for highly efficient and durable oxygen evolution catalysts.Journal of Materials Chemistry A, 2020, 8(26): 13340-13350.
[101]Jiang, Yabin; Sun, Zongzhao; Chen, Qianwen; Zhao, Yun; Zeng, Lei*; Yang, Chunzhen; Huang, Feng; Huang, Limin*.Sulfate modified g-C3N4 with enhanced photocatalytic activity towards hydrogen evolution: the role of sulfate in photocatalysis.Physical Chemistry Chemical Physics, 2020, 22(18): 10116-10122.
[100]Sun, Zongzhao; Jiang, Yabin; Wang, Wu; Zhong, Ruyi; Pu, Yayun; Chen, Qianwen; Nan, Bo; He, Jiaqing; Huang, Limin*.Visible-light-stimulated Alkalis-triggered Platinum Cocatalyst with Electron Deficient Interface for Hydrogen Evolution.ChemCatChem, 2020, 12(8): 2189-2193.
[99]Chen, Qianwen; Hou, Zhen; Sun, Zongzhao; Pu, Yayun; Jiang, Yabin; Zhao, Yun; He, Heng; Zhang, Tianxu; Huang, Limin*.Polymer-Inorganic Composite Protective Layer for Stable Na Metal Anodes.ACS Applied Energy Materials, 2020, 3(3): 2900-2906.
[98]Sun, Zongzhao; Wang, Wu; Chen, Qianwen; Pu, Yayun; He, Heng; Zhuang, Weiman; He, Jiaqing*; Huang, Limin*.A hierarchical carbon nitride tube with oxygen doping and carbon defects promotes solar-to-hydrogen conversion.Journal of Materials Chemistry A, 2020, 8(6): 3160-3167.
[97]Wang, Qi; Xia, Guang-Jie; Zhao, Zhi Liang; Zhu, Yuanmin; Shi, Xiaobo; Huang, Limin; Wang, Yang-Gang; Gu, Meng.Atomic origin of CO-Interaction effect of PtPb@Pt catalyst revealed by in situ environmental transmission electron microscopy.Nano Energy, 2020, 76: 105099.
[96]湯小菊*; 顏璦琿; 黃立民.一種新型磁天平在配合物磁化率測定中的應用.大學化學, 2020, 35(02): 58-63.
[95]Pearsall, Frederick A.; Lombardi, Julien; Farahmand, Nasitn; van Tassel, Barry; Leland, Eli S.; Huang, Limin; Liu, Shuangyi; Yang, Shyuan; Le, Chengrui; Kymissise, Ioannis; Kinget, Peter; Sanders, Seth R.; Steingart, Daniel; O'Brien, Stephen*.Polymer-Nanocrystal Nanocomposites: Device Concepts in Capacitors and Multiferroics.IEEE Transactions on Nanotechnology, 2020, 19: 255-268.
[94]Wen, Jiangwei; Yang, Xiaoting; Sun, Zongzhao; Yang, Jianjing; Han, Ping; Liu, Qiuxia; Dong, Hongyan; Gu, Meng; Huang, Limin*; Wang, Hua*.Biomimetic photocatalytic sulfonation of alkenes to access beta-ketosulfones with single-atom iron site.Green Chemistry, 2020, 22(1): 230-237.
[93]Si, Yinsong; Sun, Zongzhao; Huang, Limin; Chen, Min; Wu, Limin.A "ship-in-a-bottle" strategy to fabricate highly crystallized nanoporous graphitic C3N4 microspheres under pressurized conditions.Journal of Materials Chemistry A, 2019, 7(15): 8952-8959. (IF=10.733, Q1).
[92]Pu, Yayun; Chen, Qianwen; Sun, Zongzhao; Rodriguez, Paramaconi; Huang, Limin.Anomalous Phase Transition of Layered Lepidocrocite Titania Nanosheets to Anatase and Rutile.Crystal Growth & Design, 2019, 19(6): 3298-3304. (IF=4.153, Q2).
[91]Sun, Zongzhao; Jiang, Yabin; Zeng, Lei; Zhang, Xi; Hu, Shuchao; Huang, Limin*.Controllable local electronic migration induced charge separation and red-shift emission in carbon nitride for enhanced photocatalysis and potential phototherapy.Chemical communications, 2019, 55(43): 6002-6005. (cover) 出版年:MAY 28 2019 (IF=6.164, Q1).
[90]Sun, Zongzhao; Jiang, Yabin; Zeng, Lei; Huang, Limin*.Intramolecular Charge Transfer and Extended Conjugate Effects in Donor--Acceptor-Type Mesoporous Carbon Nitride for Photocatalytic Hydrogen Evolution.Chemsuschem, 2019, 12(7): 1325-1333.(cover) (IF=7.804, Q1)
[89]Cai, Chao; Han, Shaobo; Caiyang, Weinan; Zhong, Ruyi; Tang, Yongliang; Lawrence, Matthew J.; Wang, Qi; Huang, Limin; Liang, Yongye; Gu, Meng.Tracing the Origin of Visible Light Enhanced Oxygen Evolution Reaction.Advanced Materials Interfaces, 2019, 6(3): 1801543. . 出版年: FEB 8 2019 (IF=4.713, Q1)
[88]Chen, Yifan; Zhang, Qingfeng; Wang, Rui; Anwar, Putri Santi; Huang, Limin; Guo, Tongfeng.Propagation Channel Modeling for Transient Communication: An Antenna-Dependent Perspective.IEEE Transactions on Antennas and Propagation, 2018, 66(11): 6225-6232.出版年: NOV 2018 (IF= 4.435, Q1)
[87]Zhong, Ruyi; Zhang, Zisheng; Luo, Shuqi; Zhang, Z. Conrad; Huang, Limin; Gu, Meng.Comparison of TiO2 and g-C3N4 2D/2D nanocomposites from three synthesis protocols for visible-light induced hydrogen evolution.Catalysis Science & Technology, 2019, 9(1): 75-85. (cover). 出版年: JAN 7 2019 (IF= 5.726, Q1)
[86]Jiang, Yabin; Sun, Zongzhao; Tang, Chao; Zhou, Yuxia; Zeng, Lei*; Huang, Limin*.Enhancement of photocatalytic hydrogen evolution activity of porous oxygen doped g-C3N4 with nitrogen defects induced by changing electron transition.Applied Catalysis B: Environmental , 2019, 240: 30-38.出版年: JAN 2019 (IF=14.229, Q1)
[85]Zeng, Lei; Ding, Xue; Sun, Zongzhao; Hua, Weiming; Song, Wulin; Liu, Shuangyi; Huang, Limin.Enhancement of photocatalytic hydrogen evolution activity of g-C3N4 induced by structural distortion via post-fluorination treatment.Applied Catalysis B: Environmental , 2018, 227: 276-284. 出版年: JUL 5 2018 (IF= 14.229, Q1)
[84]Zhong, Ruyi; Zhang, Zisheng; Yi, Huqiang; Zeng, Lei; Tang, Chao; Huang, Limin; Gu, Meng.Covalently bonded 2D/2D O-g-C3N4/TiO2 heterojunction for enhanced visible-light photocatalytic hydrogen evolution.Applied Catalysis B: Environmental , 2018, 237: 1130-1138. . 出版年: DEC 5 2018 (IF= 14.229, Q1)
[83]Shi, Yuping; Huang, Limin*; Soh, Ai Kah; Weng, George J.; Liu, Shuangyi; Redfern, Simon A. T.A scaling law for distinct electrocaloric cooling performance in low-dimensional organic, relaxor and anti-ferroelectrics.Scientific Reports, 2017, 7(1): 11111. DOI:10.1038/s41598-017-11633-y. 出版年: SEP 11 2017
[82]Li, Xu; Li, Zhenhu*; Lu, Li; Huang, Limin; Xiang, Lu; Shen, Jun; Liu, Shuangyi*; Xiao, Dong-Rong*.The Solvent Induced Inter-Dimensional Phase Transformations of Cobalt Zeolitic-Imidazolate Frameworks.Chemistry - A European Journal, 2017, 23(44): 10638-10643.. 出版年: AUG 4 2017
[81]Chen Y, Anwar PS, Huang L, Asvial M. Characterizing Nanoscale Transient Communication, IEEE Transactions on Nanobioscience 2016, 2016 Apr;15(3):218-29. DOI: 10.1109/TNB.2016.2536645, APR 2016.
[80]Liu, Shuangyi; Huang, Limin*; Li, Wanlu; Liu, Xiaohua; Jing, Shui; Li, Jackie; O'Brien, Stephen.Green and scalable production of colloidal perovskite nanocrystals and transparent sols by a controlled self-collection process.Nanoscale, 2015, 7(27): 11766-11776.DOI: 10.1039/c5nr02351c.
[79]Barry Van Tassell, Shyuan Yang, Chengrui Le, Limin Huang, Shuangyi Liu, Paul Chando, Xiaohua Liu, Andrew Byro, Daniel Gerber, Eli S. Leland, Seth R. Sanders, Peter Kinget, Ioannis Kymissis, Daniel Steingart, Stephen O’Brien, Metacapacitors: Printed Thin Film, Flexible Capacitors for Power Conversion Applications, IEEE Transactions on Power Electronics 2016, Vol. 31, 4, 2695-2708 (DOI: 10.1109/TPEL.2015.2448529), Apr. 2016 (MIT Technology Review 2013/03/08).
[78]Chen, Yifan*; Zhang, Qingfeng; Alomainy, Akram; Anwar, Putri Santi; Huang, Limin.Characterizing Physically Transient Antennas.IEEE Transactions on Antennas and Propagation, 2015, 63(6): 2421-2429.
[77]Chen, Yifan*; Kosmas, Panagiotis; Anwar, Putri Santi; Huang, Limin.A Touch-Communication Framework for Drug Delivery Based on a Transient Microbot System.IEEE Transactions on NanoBioscience, 2015, 14(4): 397-408. (相關(guān)成果被收入 IEEE 1906.1 國際標準)
[76]Shuangyi Liu, Andrew R. Akbashev, Xiaohao Yang, Xiaohua Liu, Wanlu Li, Lukas Zhao, Xue Li, Alexander Couzis, Myung-Geun Han, Yimei Zhu, Lia Krusin-Elbaum, Jackie Li, Limin Huang, Simon J. L. Billinge, Jonathan E. Spanier, Stephen O’Brien, Hollandites as a new class of multiferroics, Nature Publishing Group Scientific Reports. 4: 6203, DOI: 10.1038/srep06203, published 27 August 2014 (featured in Phys.org, Science Daily, and Nanowerk, etc.).
[75]Shyuan Yang , Brian R. Tull , Nadia K. Pervez , Limin Huang , Eli S. Leland , Daniel A. Steigart , Stephen O'Brien , Ioannis Kymissis, Asymmetric Leakage in (Ba, Sr)TiO3 Nanoparticle/Parylene-C Composite Capacitors, J. Polym. Sci. B Polym. Phys. 2013, Vol. 51, 1, 35-38.
[74]Huang, Limin*; Liu, Shuangyi; Van Tassell, Barry J.; Liu, Xiaohua; Byro, Andrew; Zhang, Henan; Leland, Eli S.; Akins, Daniel L.; Steingart, Daniel A.; Li, Jackie; O'Brien, Stephen.Structure and performance of dielectric films based on self-assembled nanocrystals with a high dielectric constant.Nanotechnology, 2013, 24(1): 415602-415616.
[73]Leland, E.S.; Van Tassell, B.; Chando, P.; Yang, S.; Tull, B.; Liu, S.; Huang, L.; Kymissis, I.; Steingart, D.; O'Brien, S.; Metacapacitors: Printed Multilayer Capacitors for High-Frequency on-Chip Power Conversion, pages 351-354, Proceedings PowerMEMS, 2012.
[72]Shuangyi Liu, Henan Zhang, Lev Sviridov, Limin Huang, Xiaohua Liu, Jacopo Samson, Dan Akins, Jackie Li, Stephen O'Brien, Comprehensive dielectric performance of bismuth acceptor doped BaTiO3 based nanocrystal thin film capacitors, J. Mater. Chem., 2012, 22, 21862-21870. (highlighted as hot article on the Journal Chemistry blog, http://rsc.li/U2DAwX).
[71]Liu, Shuangyi; Huang, Limin; Li, Jackie; O'Brien, Stephen, Intrinsic dielectric frequency dependent spectrum of a single domain tetragonal BaTiO3, J. Appl. Phys. 2012, vol 112, 1, 014108
[70]Roussel, Frederick; Brun, Jean-Francois; Allart, Alexandre; Huang, Limin; O'Brien, Stephen, Horizontallyaligned carbon nanotubes arrays and their interactions with liquid crystal molecules: Physical characteristics and display applications, AIP ADVANCES 2012, Vol. 2, 1, 012110.
[69]Limin Huang, Zhang Jia, Ioannis Kymissis, Stephen O’Brien*, High K Capacitors and OFET Gate Dielectrics from Self Assembled BaTiO3 and (Ba,Sr)TiO3 Nanocrystals in the Superparaelectric Limit, Advanced Functional Materials 2010, Volume 20, Issue 4, Pages: 554-560.
[68]Li Zhang, Limin Huang, Maria Lind, Virginia Liao, Stephen O’Brien and Zhonghua Yu, Excitation, Temperature, and Structural Dependence of Second-Order Raman Modes in Single-Wall Carbon Nanotubes, J. Phys. Chem. C 2009, 113, 37, 16432.
[67]Yang Wu, Mingyuan Huang, Feng Wang, X. M. Henry Huang, Sami Rosenblatt, Limin Huang, Hugen Yan, Stephen P. O’Brien, James Hone, and Tony F. Heinz, Determination of the Young’s Modulus of Structurally Defined Carbon Nanotubes, Nano Lett. 2008, 8, 4158-4161.
[66]Li Zhang, Limin Huang, Stephen P. O'Brien, and Zhonghua Yu, Electrostatic Doping-induced Phonon Shift of Metallic Single-Wall Carbon Nanotubes, J. Phys. Chem. C 2008, 112, 20118.
[65]Li Zhang, Zhang Jia, Limin Huang, Stephen O'Brien, and Zhonghua Yu, Low Temperature Raman Spectroscopy of Individual Single-Wall Carbon Nanotubes and Single-Layer Graphene, J. Phys. Chem. C 2008, 112, 13893.
[64]Limin Huang, Zhang Jia, Stephen O’Brien, Orientated Assembly of Single-Walled Carbon Nanotube and Applications, J. Mater. Chem. 2007, 17, 3863 (Invited feature article and cover) (highlight cover in 2012)
[63]Li Zhang, Zhang Jia, Limin Huang, Stephen O’Brien, Zhonghua Yu, Imaging and Raman Spectroscopy of Individual Single-Wall Carbon Nanotubes on a Large Substrate, J. Phys. Chem. C 2007, 111, 30, 11240.
[62]Xuefeng Guo, Adam Whalley, Jennifer Klare, Limin Huang, Stephen O’Brien, Michael Steigerwald, and Colin Nuckolls, Single-Molecule Devices as a Scaffolding for Multimeric Nanostructure Assembly, Nano Letters 2007, 7, 1119 (cover).
[61]Feng Wang, Weitao Liu, Yuen-Ron Shen, Yang Wu, Matt Sfeir, Limin Huang, James Hone, Stephen O’Brien, Louis E. Brus, Tony F Heinz, Multiphonon Raman Scattering from Individual Single-Walled Carbon Nanotubes, Phys. Rev. Lett. 2007, 98, 4, 047402.
[60]Sarbajit Banerjee, Brian E. White, Limin Huang, Blake J. Rego, Stephen O'Brien, and Irving P. Herman, Positioning of Nanotubes by AC Dielectrophoresis Using Floating Posts, Appl. Phys. A 2007, 86, 4, 415.
[59]De Poortere, E. P., Stormer, H. L., Huang, L. M., Wind, S. J., O'Brien, S., Huang, M., Hone, J. 1-to 2-nm-wide nanogaps fabricated with single-walled carbon nanotube shadow masks, , J. Vac. Sci. Technol. B 2006, 24, 3213.
[58]Sarbajit Banerjee, Brian E. White, Limin Huang, Blake J. Rego, Stephen O'Brien, and Irving P. Herman, Precise positioning of single-walled carbon nanotubes by ac dielectrophoresis, J. Vac. Sci. Technol. B 2006, 24, 3173.
[57]Bhupesh Chandra, Robert Caldwell, Mingyuan Huang, Limin Huang, Matthew Sfeir, Stephen O'Brien, Tony Heinz, James Hone, Electrical transport measurements of nanotubes with known (n, m) indices, Physica Status Solid B-Basic Solid State Physics 2006, 243, 3359.
[56]Zhuoying Chen, Limin Huang, Jiaqing He, Yimei Zhu, Stephen O’Brien, A new nonhydrolytic route to synthesize crystalline BaTiO3 nanocrystals with surface capping ligands, J. Mater. Res. 2006, 21, 3187.
[55]E.P. De Poortere, H.L. Stormer, L. Huang, S.J. Wind, S. O’Brien, J. Hone, Single-walled carbon nanotubes as shadow masks for nanogap fabrication, Applied Physics Letters 2006, 88, 143124.
[54]Limin Huang*, Brian White, Matthew Y. Sfeir, Mingyuan Huang, Henry X.M. Huang, Shalom Wind, James Hone, Stephen P. O’Brien, Co ultrathin film catalyzed chemical vapor deposition of single-walled carbon nanotubes using ethanol as carbon feedstock, J. Phys. Chem. B 2006, 110, 23, 11103.
[53]Matthew Y. Sfeir, Tobias Beetz, Feng Wang, Limin Huang, X.M. Henry Huang, J. Hone, Stephen P. O’Brien, J.A. Misewich, Tony F. Heinz, Yimei Zhu, Louis E. Brus, Optical Spectroscopy of Individual Single-Walled Carbon Nanotubes of Defined Chiral Structure, Science 2006, 312, 554.
[52]Xuefeng Guo, Joshua P. Small, Jennifer E. Klare, Yiliang Wang, Meninder S. Purewal, Iris Tam, Byung Hee Hong, Robert Caldwell, Limin Huang, Stephen O’Brien, Jiaming Yan, Ronald Breslow, Shalom J. Wind, James Hone, Philip Kim, and Colin Nuckolls, Recognition and Switching of Molecules Wired between Carbon Nanotube Electrodes, Science 2006, 311, 356. (“Nanotube Hookup”, highlighted by Scientific American April, 2006)
[51]Feng Wang, Matthew Y. Sfeir, Limin Huang, X.M. Henry Huang,Yang Wu, Jaehee Kim, James Hone, Stephen P. O’Brien, Louis E. Brus, and Tony F. Heinz, Inter-tube Interactions between Carbon Nanotubes Studied by Single-Tube Spectroscopy, Phys. Rev. Lett. 2006, 96, 16, 167401.
[50]Limin Huang, Zhuoying Chen, James Wilson, Richard D. Robinson, Sarbajit Banerjee, Irving P. Herman, Robert Laibowitz and Stephen P O’Brien, Synthesis and ferroelectricity of BaTiO3 nanocrystals and thin films, J. Appl. Phys. 2006, 100, 034316.
[48]Xue Ming Henry Huang, Robert Caldwell, Limin Huang, Seong Chan Jun, Mingyuan Huang, Matthew Y. Sfeir, Stephen P. O'Brien, and James Hone, Controlled Placement of Individual Carbon Nanotubes, Nano Letters 2005, 5 (7), 1515.
[47]J. Hone, P. Kim, X. M. H. Huang, B. Chandra, R. Caldwell, J. Small, B. H. Hong, T. Someya, L. Huang, S. O'Brien, C. P. Nuckolls, "Growth of nanotubes and chemical sensor applications," in Nanosensing: Materials and Devices, edited by M. Saif Islam, Achyut K. Dutta, Proceedings of SPIE Vol.5593 (SPIE, Bellingham, WA,2004) pp.1-12 (invited paper).
[46]Matthew Y. Sfeir, Feng Wang, Limin Huang, Chia-Chin Chuang, J. Hone, Stephen P. O’Brien, Tony F. Heinz, Louis E. Brus Probing Electronic Transitions in Individual Carbon Nanotubes by Rayleigh Scattering, Science 2004, 306, 1540.
[45]Limin Huang, Xiaodong Cui, Brian White, Stephen P. O’Brien, Long and Oriented Single-Walled Carbon Nanotubes Grown by Ethanol CVD, J. Phys. Chem. B 2004, 108, 16451.
[44]Limin Huang, Xiaodong Cui, Gordana Dukovic, Stephen P. O’Brien, Self-organizing high-density SWNT arrays from surfactant suspensions, Nanotechnology 2004, 15, 1450 (one of the most highly downloaded articles in the entire journal Nanotechnology in 2004).
[43] Anupam Mitra, Tiegang Cao, Huanting Wang, Zhengbao Wang, Limin Huang, Shuang Li, Zijian Li, Yushan Yan,. Synthesis and Evaluation of Pure-Silica-Zeolite BEA as Low Dielectric Constant Material for Microprocessors. Industrial & Engineering Chemistry Research 2004, 43(12), 2946.
[42]Limin Huang, Shalom J. Wind, and Stephen P. O’Brien, Controlled growth of single-walled carbon nanotubes from line patterned mesoporous silica thin films, Mat. Res. Soc. Symp. Proc, Vol 772, M1.7.1, 2003.
[41]Limin Huang, Huanting Wang, Cheryl Y. Hayashi, Dongyuan Zhao, Yushan Yan, Single-strand spider silk templating for the formation of hierarchically ordered mesoporous silica hollow fibers, J. Mater. Chem. 2003, 13, 4, 666.
[40]Limin Huang, Shalom J. Wind, and Stephen P. O’Brien, Controlled Growth of Single-Walled Carbon Nanotubes from an Ordered Mesoporous Silica Template, Nano Letters. 2003, 3, 3, 299.
[39]Wanping Guo, Limin Huang, Chang-SiK Ha and Quanzhi Li, Investigation of the internal pore structures of Beta/MCM-41 and ZSM-5/MCM-41 composites by Xe-129 NMR, Nanotechnology in Mesostructured Materials, Stud. Surf. Sci. Catal. 2003, 146, 367-370.
[38]Limin Huang, Huanting Wang, Jinxi Chen, Zhengbao Wang, Jinyu Sun, Dongyuan Zhao, Yushan Yan, Synthesis, morphology control and properties of nanostructured porous metal-organic coordination polymers, Microporous Mesoporous Mater, 2003, 58, 2, 105 (Top25 Hottest Articles since 2009 according to Science Direct) .
[37] Anupam Mitra, Zhengbao Wang, Tiegang Cao, Huanting Wang, Limin Huang, Yushan Yan, Synthesis and corrosion resistance of high-silica zeolite MTW, BEA and MFI coatings on steel and aluminum, Journal of the Electrochemical Society 2002, 149(10), B472-B478.
[36]Huanting Wang, Limin Huang, Brett A. Holmberg and Yushan Yan, Nanostructured zeolite 4A molecular sieving air separation membranes, Chem. Comm. 2002, 16, 1708.
[35]Anupam Mitra, C. W. Kirby, Zhengbao Wang, Limin Huang, Huanting Wang, Y. Huang and Yushan Yan, Synthesis of pure-silica MTW powder and supported films, Microporous Mesoporous Mater. 2002, 54, 1-2, 175.
[34]Huanting Wang, Brett A. Holmberg, Limin Huang, Zhengbao Wang, Anupam Mitra, Joseph M. Norbeck, Yushan Yan, Nafion-Bifunctional Silica Composite Proton Conductive Membranes, J. Mater. Chem. 2002, 12, 4, 834-837.
[33]Limin Huang, Huanting Wang, Zhengbao Wang, Anupam Mitra, Krassimir N. Bozhilov, and Yushan Yan, Nanowire arrays electrodeposited from liquid crystalline phases, Adv. Mater. 2002,14,61-64.
[32]Limin Huang, Zhengbao Wang, Huanting Wang, Anupam Mitra, and Yushan Yan, Cuprite nanowires by electrodepositon from surfactant mesophases, Chem. Mater. 2002, 14, 2, 876-880.
[31]Limin Huang, Zhengbao Wang, Huanting Wang, Xiaoliang Cheng, Anupam Mitra, Yushan Yan, Polyaniline nanostructures by liquid-crystal template electropolymerization, J. Mater. Chem. 2002, 12, 2, 388-391.
[30]Cong Nie, Limin Huang, Dongyuan Zhao, and Quanzhi Li, Stability of Mesoporous Material SBA-15 and Its Benefit in Catalytic Performance, Stud. Surf. Sci. Catal. 2001,135, 08-P-13, A. Galarneau, F. Di Renzo, F. Fajula, J. Vedrine (Editor).
[29]Dongyuan Zhao, Cong Nie, Yamin Zhou, Sijin Xia, Limin Huang, Quanzhi Li, Comparison of disordered mesoporous alumino silicates with highly ordered Al-MCM-41 on stability, acidity and catalytic activity, Catal. Today 2001, 68,1,11-20.
[28]Wanping Guo, Limin Huang, Peng Deng, Zhiyuan Xue, and Quanzhi Li, Characterization of Beta/MCM-41 composite molecular sieve compared with the mechanical mixture, Microporous Mesoporous Mater. 2001, 44, 427-434.
[27]Wanping Guo, Chunrong Xiong, Limin Huang, and Quanzhi Li, Synthesis and characterization of composite molecular sieves comprising zeolite Beta with MCM-41 structures, J. Mater. Chem. 2001,11,7,1886-1890.
[26]Huanting Wang, Zhengbao Wang, Limin Huang, Anupam Mitra and Yushan Yan Surface Patterns by Solvent Evaporation of Colloidal Zeolite Suspension, MRS proceedings 2001, 676, Y1.6.
[25]Limin Huang, Huanting Wang, Zhengbao Wang, Anupam Mitra, and Yushan Yan, Silver nanowires electrodeposited from reverse hexagonal liquid crystals, MRS proceedings 2001, 676, Y3.32.
[24]Zhengbao Wang, Anupam Mitra, Huanting Wang, Limin Huang, and Yushan Yan, Pure silica zeolite films as low-k materials by spin-on of as-synthesized nanoparticle suspension, Adv. Mater. 2001, 13,1463.
[23]Cong Nie, Limin Huang, Dongyuan Zhao, and Quanzhi Li, Performance of Pt/Al-SBA-15 catalysts in hydroisomerization of n-dodecane, Catalysis Lett. 2001,71,1-2,117-125.
[22]Huanting Wang, Limin Huang, Zhengbao Wang, Anupam Mitra, Yushan Yan, Shaped hierarchical zeolite structures by gelcasting of colloidal nanocrystal suspensions, Chem. Comm. 2001,15,1364-1365.
[21]Huanting Wang, Zhengbao Wang, Limin Huang, Aunpam Mitra, Brett Holmberg, and Yushan Yan, High surface area zeolitic silica with mesoporosity, J. Mater. Chem. 2001, 11, 2307-2310.
[20]Huanting Wang, Zhengbao Wang, Limin Huang, and Yushan Yan, Surface patterned porous films by convection-assisted dynamic self-assembly of zeolite nanoparticles, Langmuir, 2001,17, 9, 2572-2574.
[19]Limin Huang, Zhengbao Wang, Huanting Wang, Jinyu Sun, Quanzhi Li, Dongyuan Zhao, and Yushan Yan, Hierarchical porous structures by using zeolite nanocrystals as building blocks, Microporous Mesoporous Mater. 2001, 48, 73-78.
[18]Zhengbao Wang, Huanting Wang, Anupam Mitra, Limin Huang and Yushan Yan, Pure-silica zeolite low-k dielectric thin films by spin-on process, Stud. Surf. Sci. Catal. 2001,135, 20-P-11, A. Galarneau, F. Di Renzo, F. Fajula, J. Vedrine (Editor).
[17]Huanting Wang, Zhengbao Wang, Xiaoliang Cheng, Anupam Mitra, Limin Huang, and Yushan Yan, Characterization of corrosion-resistant zeolite coating on Al alloys, Stud. Surf. Sci. Catal. 2001,135, 22-O-04, A. Galarneau, F. Di Renzo, F. Fajula, J. Vedrine (Editor).
[16]Zhengbao Wang, Huanting Wang, Limin Huang and Yushan Yan, Pure silica zeolite low k thin films, Adv. Mater. 2001,13,746.
[15]Limin Huang, Xiaoyin Chen and Quanzhi Li, Syntheses of microporous molecular sieves templated by surfactant decomposition, J. Mater. Chem. 2001,11,610-615.
[14]Limin Huang, Zhengbao Wang, Jinyu Sun, Lei Miao, Quanzhi Li, Yushan Yan and Dongyuan Zhao, Fabrication of ordered porous structures by self-assembly of zeolite nanocrystals, J. Am. Chem. Soc. 2000,122,3530-3531.
[13]Limin Huang and Quanzhi Li, Improvement on thermal stability and acidity of mesoporous materials with posttreatment of phospgoric acid, Stud. Surf. Sci. Catal. 2000, 129, 93-98, Sayari, Jaroniec, Pinnavaia (Editor).
[12]Limin Huang, Wanping Guo, Peng Deng, Zhiyuan Xue and Quanzhi Li, Investigation of synthesizing MCM- 41/ZSM-5 composites, J. Phys. Chem. B. 2000,104, 2817-2823.
[11]Limin Huang and Quanzhi Li, Enhanced stability and acidity of MCM-41 impregnated with phosphoric acid,Chem. Lett.1999, 829.
[10]Limin Huang and Quanzhi Li , Synthesis and characterization of composite MCM-41/ZSM-5 material, Proceedings of the 12th International Zeolite Conference 1999, Vol.1, p707, MRS, Warrendale, PA.
[9]Quanzhi Li and L. Huang, Advance in the synthesis of microporous materials using new templating molecules, International Academic Developments 1999,102,3,53 (Chinese).
[8]Wanping Guo, Limin Huang and Quanzhi Li, Syntheses and characterizations of composite meso-microporous MCM-41-beta materials, Chem. Journ. of Chin. Univ.1999,20,3,356 (Chinese).
[7]Limin Huang and Quanzhi Li, Advance in the studies of mesoporous molecular sieves, International Academic Developments 1998, 98,11, 48 (Chinese)
[6]Jun Wang, Limin Huang and Quanzhi Li, Influence of different dilutes in Pt/Al2O3 catalyst on the hydrogenation of benzene, toluene and o-xylene, Appl. Catal. A 1998,175,191.
[5]Jun Wang, Limin Huang, Haiyin Chen and Quanzhi Li, Acid function of Al-MCM-41 supported platinum catalysts in hydrogenation of benzene, toluene and o-xylene, Catal. Lett. 1998,55,157.
[4]Xiaoyin Chen, Limin Huang and Quanzhi Li, Hydrothermal transformation and characterization of porous silica templated by surfactants, J. Phys. Chem. B 1997,101,8460.
[3]Xiaoyin Chen, Limin Huang, Guozhong Ding and Quanzhi Li, Characterization and catalytic performance of mesoporous molecular sieves Al-MCM-41materials, Catal. Lett. 1997,44,123.
[3]Fengxi Chen, Limin Huang and Quanzhi Li, Synthesis of MCM-48 using mixed cationic-anionic surfactants as templates, Chem. Mater.1997,9,12, 2685.
[1]Limin Huang, Quanzhi Li, Zhiyuan Xue etal. Effect of pre-dealumination by (NH4)2SiF6 on the properties of ZSM-5 with steam aging treatment, Stud. Surf. Sci. Catal. 1997,105, 2003.
會議論文:
[4]Chen, Yifan*; Zhang, Qingfeng; Wang, Rui; Anwar, Putri Santi; Huang, Limin。Propagation Channel Modeling for Transient Communication.IEEE-Antennas-and-Propagation-Society International Symposium, 2016-06-26 To 2016.
[3]Chen, Y.*; Kosmas, P.; Anwar, P. S.; Huang, L.A Touchable Molecular Communication Model of Targeted Contrast Agent Delivery.IEEE International Conference on Communications (ICC), 2015-06-08 To 2015-06-12.
[2]Chen Yifan*; Zhang Qingfeng; Alomainy Akram; Anwar Putri Santi; Huang Limin.Statistical Characterization of Physically Transient Antennas.IEEE International Symposium on Antennas and Propagation / USNC/URSI National North American Radio Science Meeting, 2015-07-19 To 2015-07-24.
[1]Chen, Y.*; Kosmas, P.; Anwar, P. S.; Huang, L.A Touch-Communication Model of Targeted Drug Delivery.Asia-Pacific Microwave Conference Proceedings, 2014-11-04 To 2014-11-07.
1月9日下午三點,南方科技大學湖北招生組組長黃立民教授和彭中華老師到我校,學校高圣奉校長和田蘋副校長與其面談,聽取了南方科技大學教授對該校及2014年招生措施的介紹。
南方科技大學是國家教育部批準成立的全日制高等教育綜合改革實驗校,是深圳市高起點、高定位創(chuàng)辦的一所創(chuàng)新型大學,于2011年3月實驗班正式開班,以理工科為主,兼有部分文、管學科,現(xiàn)共有15大專業(yè)。其辦學與傳統(tǒng)高等院校辦學主要有四點不同,一是以回答“錢學森之問”而設(shè)立的,旨在培養(yǎng)拔尖創(chuàng)新人才;二是以“一校一法”形式,保障依法自主辦學;三是教授治校全面保障學術(shù)自由,去行政化;四是招生模式改革多層次選拔人才。比如采用631模式選拔人才,即高考成績占60%,綜合能力測試占30%,平時成績占10%,特別是該校的綜合能力測試,主要考查學生專注力、創(chuàng)造力、記憶力等,如7分鐘內(nèi)按順序?qū)懗?至300的數(shù)字等。
下午四點,黃立民教授還在我校三樓學術(shù)報告廳為部分高一高二的學生做了40分鐘的專場學術(shù)講座《納米技術(shù)的發(fā)展與運用》,從學術(shù)上介紹了納米技術(shù)的產(chǎn)生,及在日常生活、科技、交通、軍事等各個領(lǐng)域的運用。黃教授曾留學美國紐約,并在哥倫比亞任教12年,其深厚的學養(yǎng)、開闊的國際視野和幽默的講解,引得同學們笑聲不斷,收獲頗多。
隨后,黃教授和彭老師還簡短地為高三宏志班和縣區(qū)班的同學們介紹了南方科技大2014年招生計劃和辦法。
我校2011屆畢業(yè)生荊水為南方科技大學首屆學生,目前在南科大表現(xiàn)優(yōu)異,發(fā)展良好。
整個活動由學校教務(wù)處負責,適當?shù)匾M高校的學術(shù)講座和招生宣傳,是為了讓學生更多地了解各類高等院校,利于同學們選擇適合自己的院校。
來源:夷陵中學 2014-01-09
12月23日上午,美籍華裔科學家、南方科技大學教授黃立民應邀來我校,為我校部分學生做了一場題為《納米技術(shù)及應用》的科普講座。納米技術(shù)在能源、環(huán)保、新材料及生物醫(yī)學等方面具有廣泛的應用。黃教授在美國多年從事納米技術(shù)的研究,取得了豐碩的成果,現(xiàn)任教于南方科技大學。黃教授用身邊的案例、通俗的語言將同學們悄悄地帶進了奇妙的現(xiàn)代科技前沿,激發(fā)了同學們的探索精神,提高了同學們的科學素養(yǎng)。
來源:湖北孝感一中 2013-12-24
榮譽獎勵:
1. 2015年,榮獲2014年“科學中國人年度人物”。
2. 2007年,美國材料研究學會最佳海報獎。
3. 2005年,被Marquis Who's Who系列收錄。
4. 2005年,獲上海市科技進步一等獎。
5. 1996年,獲田氏獎。
6. 1993-1994年,獲光華教育基金會獎學金。
7. 入選深圳市海外高層次人才“孔雀計劃”。
南方科技大學化學系教授黃立民榮膺“科學中國人年度人物”
2015年6月26日,由《科學中國人》雜志社主辦的“科學中國人年度人物頒獎典禮”在北京舉行,146位科學家榮膺科學中國人(2014)年度人物。我校化學系教授黃立民榮獲化工冶金與材料領(lǐng)域“科學中國人2014年度人物”稱號,并作為獲獎人代表上臺發(fā)言。
146名獲獎?wù)咧邪ㄖ袊茖W技術(shù)大學校長萬立駿、礦床地質(zhì)與礦產(chǎn)勘查學專家裴榮富等12位兩院院士,以及“嫦娥二號”總設(shè)計師黃江川、水稻育種專家鄧華鳳、“天河二號”總指揮廖湘科等知名科學家。
“科學中國人年度人物”評選活動始于2002年,今年是第十三屆。包括袁隆平、楊振寧、吳文俊、孫家棟、吳孟超等數(shù)百位為我國科技事業(yè)發(fā)展做出突出貢獻的專家、學者、科技型企業(yè)家都獲得過年度人物獎項。
本屆年度人物評選以“影響力、創(chuàng)造力、轉(zhuǎn)化力、責任感”為評選標準,歷經(jīng)征集候選人、提名、候選人網(wǎng)絡(luò)公示、第三方評價體系評審、專家終審等5個環(huán)節(jié)。最終,包括化工冶金與材料、基礎(chǔ)研究、醫(yī)藥衛(wèi)生、信息技術(shù)與電子、土木水利與建筑等十個領(lǐng)域,共146位科學家榮膺科學中國人(2014)年度人物,近20位院士參加典禮并為獲獎?wù)哳C獎。
據(jù)了解,黃立民教授在多孔材料、碳納米管和可打印的膠體納米晶等多個領(lǐng)域做出了創(chuàng)新性的工作,發(fā)表包括3篇Science在內(nèi)的文章80多篇,相關(guān)研究獲得了英國新科學家雜志、美國商業(yè)周刊等國際知名媒體的報道。由他參加并作為小組負責人開發(fā)的Metacapacitors項目被美國能源部先進能源項目研究機構(gòu)(ARPA-e)選為七個下一代能源技術(shù)之一, 并獲麻省理工技術(shù)評論報道(MIT Technology Review,2013)。
來源:南方科技大學化學系教授 2015-07-13
科研風向吹何處,遠矚前方路。毫微雖不入雙眸,威力撼天動地,露鋒頭。 緣由少壯心中愛,風雨情猶在。他鄉(xiāng)鉆勁又多年,名遂功成難阻,志綿延。——《虞美人》
“有一次回江蘇老家,遇見一位老鄉(xiāng),他笑著跟我說,現(xiàn)在的江蘇農(nóng)民都不種大米了,改‘種’納米了!”7月28日,接受晶報記者采訪的南方科技大學化學系教授黃立民說到這里,忍不住笑了出來——今年6月26日,由《科學中國人》雜志社主辦的“科學中國人年度人物頒獎典禮”在北京舉行,146位科學家榮膺科學中國人(2014)年度人物。45歲的“種”納米行家黃立民,獲得化工冶金與材料領(lǐng)域“科學中國人2014年度人物”稱號。卷首《虞美人》,說的正是這位創(chuàng)新豪杰。
實驗室“泡”的是創(chuàng)新與挑戰(zhàn)
曾在哥倫比亞大學納米研究中心、美國布魯赫文國家實驗室、IBM沃森研究中心和紐約城市大學能源研究所等著名研究中心駐足的黃立民,參加過的納米研究不計其數(shù)。據(jù)統(tǒng)計,黃立民已發(fā)表和合作發(fā)表包括3篇Science在內(nèi)的論文80多篇,已獲授權(quán)美國專利1項和中國專利2項,已公開關(guān)于納米材料的美國專利6項和國際專利2項。
“理工男的生活就是從早到晚泡實驗室。”黃立民笑著,回憶起自己與納米的最初緣分——1987年,黃立民考入復旦大學化學系,并在那里完成了學士、碩士和博士階段的學習。“其實考大學的時候還沒有什么概念,雖然分數(shù)高出錄取分數(shù)線近50分,但還是沒能考入當時炙手可熱的遺傳工程專業(yè),最后進了化學系。通過一段時間的學習,我開始慢慢喜歡上化學。”黃立民說,當時主要攻讀的是化工領(lǐng)域的催化研究。
除了理論學習,黃立民最常做的就是泡實驗室。他告訴記者,在讀書期間,自己經(jīng)常參與一些催化劑分析的研究項目,如從石化研究院領(lǐng)到國外的催化劑,對它們做分析和改進。
“泡實驗室、搞科學研究很有意思。因為每一次都有創(chuàng)新和挑戰(zhàn),研究成功后獲得的成就感讓我非常享受。如果每天重復同樣的事就有點枯燥了。”黃立民道出了對科研的熱愛。他透露,盡管催化劑是自己讀書期間的研究領(lǐng)域,但當時內(nèi)心最感興趣的還是材料領(lǐng)域。
2000年,黃立民在獲得復旦大學理學博士學位后,前往美國加州大學河濱分校深造。從那時起,他開始逐漸把研究方向轉(zhuǎn)至材料領(lǐng)域,其中包括納米材料在新能源、新材料方面的應用。
用熟悉征服陌生而獲國際權(quán)威認可
2002年,黃立民轉(zhuǎn)至哥倫比亞大學繼續(xù)學習,在紐約一呆就是10年。“人們常說,在紐約生活了10年及以上的人就可以被稱作是New Yorker。從時間上來看,我也是一名不折不扣的New Yorker了。”對紐約,黃立民有著許多美好的記憶,包括深造學習、結(jié)識朋友、建立家庭,還有對納米材料與技術(shù)的深入研究。
早在2000年1月,美國前總統(tǒng)克林頓宣布“國家納米技術(shù)計劃”(NNI)。自此,納米技術(shù)成為美國科研的新熱潮。借著政策的東風,黃立民也開始參與納米技術(shù)的研究。黃立民在加入哥倫比亞大學后不久便接到美國國家科學自然基金的一個項目——單壁碳納米管的合成。
從未做過碳納米管研究的黃立民在面對新項目時并沒有亂了陣腳,而是利用自己擅長的領(lǐng)域,通過半年的反復試驗,成功設(shè)計出一種催化劑,并用化學氣相沉積法定向合成單壁碳納米管。據(jù)他介紹,這種可定位定向、可自由懸空的獨立單壁碳納米管甚至可延伸至幾厘米長,獲得了國際納米權(quán)威認可。
“以前碳納米管的合成往往是雜亂無章,應用起來也相當繁瑣。利用這種催化劑可在合成過程中進行控制,這對之后的實際應用起到非常有利的幫助。”黃立民以電子器件的應用為例指出,在同一根可控的單壁碳納米管上可做出上千個器件,它們具備相同的尺寸,均一的、穩(wěn)定的性質(zhì),由此減少了生產(chǎn)的成本。除用于電子器件,碳納米管還廣泛應用在復合材料中,增加材料的導電、導熱性能。
黃立民表示,在當時,哥倫比亞大學屬于世界上首批掌握定向、定位碳納米管技術(shù)的研究中心。2013年,定向碳納米管生長技術(shù)用于分子傳感獲得美國專利,2014年,該研究成果授權(quán)美國一家企業(yè)使用進行產(chǎn)業(yè)化。
納米墨水造就可彎曲屏幕新時代
近年來,可彎曲的屏幕作為新鮮的科技產(chǎn)品逐漸走入大眾視線。蘋果公司曾被報道正研發(fā)可彎曲的iPhone產(chǎn)品,瞬間引發(fā)熱議。而三星電子和LG電子也陸續(xù)推出了曲面屏幕的智能手機產(chǎn)品。
“柔性顯示器是造就可彎曲屏幕的重要組成,現(xiàn)有的可彎曲屏幕顯示成分常用的是有機半導體,使用高介電常數(shù)的納米材料會讓有機半導體制成的晶體管性能更好。”黃立民表示,使用納米材料可降低工作電壓,提高晶體管的性能并達到節(jié)能的效果。
分析納米材料,合成納米顆粒是黃立民在美國開啟的另一個研究項目。據(jù)他介紹,合成的納米顆粒可制作成納米晶墨水,借助包括3D打印機在內(nèi)的各種打印技術(shù),直接生產(chǎn)出具有高介電性能的薄膜,能直接適用于柔性器件,即制作可彎曲的顯示器。此外,它還可以利用其壓電性能,把機械震動能轉(zhuǎn)化為電能收集起來,起到產(chǎn)能的作用。打印介電材料用作新型LED驅(qū)動器中的儲能電容是納米晶墨水的另一應用,該項目被美國能源部先進能源項目研究機構(gòu)(ARPA-e)選為七個下一代能源技術(shù)之一。
“我這兒還有一瓶這種墨水,墨水中含有大量約10納米大小的納米顆粒,性質(zhì)非常穩(wěn)定,在我這兒放了兩三年也沒發(fā)生沉淀。”黃立民站起身,打開身旁的書柜,從里面取出一個裝有紅褐色透明液體的小瓶子給記者介紹:“一般的納米材料合成之后容易團聚,性質(zhì)不穩(wěn)定,但我們開發(fā)出來的這種納米顆粒不會團聚,能穩(wěn)定地分散在溶劑里,經(jīng)過測試,放置兩年左右都沒有問題。”
黃立民表示,納米顆粒作為高介電常數(shù)材料的一大好處在于其生產(chǎn)和加工對環(huán)境溫度的要求較低。工業(yè)上廣泛使用的氧化鉿(HfO2)也是一種高介電常數(shù)材料,但它必須在真空和高溫的條件下生產(chǎn),這并不適合在柔性器件上使用,尤其不適合在遇熱熔化的塑料上做顯示器。“納米晶墨水在室內(nèi)常溫下就可以打印,而且不需要復雜的設(shè)備,還能大規(guī)模生產(chǎn)。”黃立民相信,納米顆粒將會成為未來的發(fā)展趨勢。
2012年,黃立民回到國內(nèi),帶著已持續(xù)了5年的納米顆粒研究一同入駐深圳。他希望,通過改進方法,使之達到大規(guī)模生產(chǎn),合成更為穩(wěn)定的納米墨水。
“紐約客”化身“深圳客” 是園丁亦是科研員
黃立民結(jié)緣深圳,緣于2011年原南方科技大學校長朱清時在紐約哥倫比亞大學的一次演講。
當時,正在尋找回國創(chuàng)業(yè)機會的黃立民,是聽眾中的一員。“聽了朱清時教授的演講后,就對這個學校產(chǎn)生了興趣。后來我就主動跟學校聯(lián)系,經(jīng)過幾次接觸后,最終確定下了任教的事。”黃立民說。
2012年,黃立民正式加入南方科技大學,任職該校化學系的正教授,給本科生全英文講授“物理化學”“納米材料合成與應用”等課程,并指導學生完成“物理化學實驗”。在國內(nèi)生活的日子里,他一邊教書,一邊埋頭于未完成的研究項目,將實驗室從紐約“搬”到了深圳。
在黃立民看來,到深圳是一個正確的選擇。“中國對新材料、新能源的重視程度與美國差不多,而且現(xiàn)在提倡萬眾創(chuàng)新,正好是海外人才回來的好時機。因為國內(nèi)有更多發(fā)展的機會,尤其是在深圳。”黃立民指出,深圳不但有強烈的知識產(chǎn)權(quán)意識,還具備國內(nèi)最好的創(chuàng)新創(chuàng)業(yè)環(huán)境,這與美國硅谷非常相似。
“我們團隊研究納米已經(jīng)有很長時間了,我希望在未來,能把納米技術(shù)利用在新能源、生物醫(yī)藥方面,研發(fā)出一個大眾能夠接受的可用的產(chǎn)品。”黃立民感慨道,希望在這種優(yōu)秀的大環(huán)境下,出現(xiàn)更多、更好的中國創(chuàng)造。
來源:深圳新聞網(wǎng) 2015-07-30
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