戴洪興（教授）

人物簡介

戴洪興，自1990年8月至1998年3月在北京化工大學(xué)應(yīng)用化學(xué)系任教, 主講《實(shí)用催化》、《精細(xì)化工工藝學(xué)》、《專業(yè)外語》和《結(jié)構(gòu)化程序設(shè)計(jì)》等本科生課程。1998年3月赴香港浸會(huì)大學(xué)（Hong Kong Baptist University）化學(xué)系學(xué)習(xí)多相催化, 于2001年3月獲理學(xué)博士學(xué)位。自2001年4月起, 先后在香港浸會(huì)大學(xué)化學(xué)系、美國著名高等學(xué)府加州大學(xué)伯克利分校(University of California at Berkeley)化學(xué)工程系和勞倫斯伯克利國家實(shí)驗(yàn)室(Lawrence Berkeley National Laboratory)化學(xué)部 從事博士后研究工作, 分別師從于表面科學(xué)與催化專家Chak Tong Au教授(“Applied Catalysis A: General”主編)和Ching Fai Ng 教授(香港浸會(huì)大學(xué)前校長)以及世界著名催化專家、美國工程院院士、美國藝術(shù)與科學(xué)院院士Alexis T. Bell教授(“Catalysis Review－Science and Engineering”主編)和美國工程院院士Enrique Iglesia教授(“Journal of Catalysis”前主編)。2003年9月受聘于北京工業(yè)大學(xué)環(huán)境與能源工程學(xué)院化學(xué)化工系, 擔(dān)任教授，博士生導(dǎo)師, 系主任，化學(xué)工程與技術(shù)一級(jí)碩士學(xué)科責(zé)任教授，化學(xué)工程與技術(shù)北京市重點(diǎn)建設(shè)學(xué)科負(fù)責(zé)人。主講《分析化學(xué)》、《催化化學(xué)》、《催化劑工程》、《化學(xué)反應(yīng)動(dòng)力學(xué)》及《高等波譜學(xué)》等本科生和研究生課程。戴洪興教授先后獲得過北京化工大學(xué)校優(yōu)秀班主任、應(yīng)用化學(xué)系先進(jìn)工作者、教學(xué)評(píng)估優(yōu)秀獎(jiǎng)、香港浸會(huì)大學(xué)研究生獎(jiǎng)學(xué)金、香港李寶椿獎(jiǎng)學(xué)金、美國勞倫斯伯克利國家實(shí)驗(yàn)室博士后獎(jiǎng)研金、北京工業(yè)大學(xué)“教學(xué)名師”獎(jiǎng)、北京工業(yè)大學(xué)教學(xué)優(yōu)秀獎(jiǎng)、北京工業(yè)大學(xué)“優(yōu)秀教師標(biāo)兵”、北京工業(yè)大學(xué)“優(yōu)秀共產(chǎn)黨員”和北京工業(yè)大學(xué)“立德樹人榜樣”獎(jiǎng)等眾多榮譽(yù)。2011年獲北京市優(yōu)秀博士學(xué)位論文指導(dǎo)教師獎(jiǎng)。2012年獲全國優(yōu)秀博士學(xué)位論文指導(dǎo)教師獎(jiǎng)。2014年榮獲“Journal of Catalysis”、“Applied Surface Science”和“Materials Research Bulletin”國際學(xué)術(shù)期刊的杰出審稿專家稱號(hào)。

主要研究

(1) 低碳烷烴選擇催化氧化，旨在研發(fā)高轉(zhuǎn)化率和高選擇性新型催化劑體系及建立整套完善的催化劑可控制備工藝技術(shù)；(2) 天然氣和揮發(fā)性有機(jī)物催化燃燒，旨在研發(fā)高效低污染排放的氧化催化劑及建立催化燃燒動(dòng)力學(xué)模型；(3) 納米低維規(guī)整孔材料的可控制備與表征及催化性質(zhì)，旨在研究具有特定結(jié)構(gòu)和特定功能的新型納米多孔材料的形成機(jī)理及開辟其在多相催化領(lǐng)域中的應(yīng)用前景；(4) 納米介孔光催化劑的制備、表征及催化性能，旨在研究鈦基和非鈦基紫外(可見)光光催化劑的可控制備工藝及開發(fā)其在空氣凈化和光解水規(guī)模制氫等方面的應(yīng)用技術(shù)。

在研課題

高分散MOx/介孔分子篩(M=Cr,Ni, Mo, V)丁烷氧化脫氫催化劑的可控制備、表征及催化性能研究（國家自然科學(xué)基金面上項(xiàng)目）

天然氣催化燃燒催化劑MOx/RE0.6Zr0.4-xYxO2 (M=Pd, Ag, Au；RE=Ce,Pr; x=0, 0.05)的可控制備、表征和催化性能的研究（國家人事部與北京市高層次留學(xué)回國人員科技活動(dòng)擇優(yōu)資助重點(diǎn)項(xiàng)目）

天然氣催化燃燒PdO/RE0.6Zr0.4-xYxO2 (RE = Ce, Pr; x = 0-0.05)催化劑的制備、表征和催化性能研究（北京工業(yè)大學(xué)博士科研啟動(dòng)基金）

利用太陽能光催化規(guī)模制氫（子課題）－光電化學(xué)電池制氫技術(shù)研究（科技部“973計(jì)劃”）

科研情況

在國際權(quán)威催化學(xué)術(shù)雜志上發(fā)表英文SCI論文80余篇（其中影響因子在3.0以上的文章高達(dá)36篇）、會(huì)議論文12篇和在國內(nèi)核心學(xué)術(shù)期刊上發(fā)表中文論文十余篇。

研究課題

高分散MOx/介孔分子篩丁烷氧化脫氫催化劑的可控制備、表征及催化性能研究（國家自然科學(xué)基金面上項(xiàng)目）

天然氣催化燃燒催化劑MOx/RE0.6Zr0.4-xYxO2的可控制備、表征和催化性能研究（國家人事部與北京市高層次留學(xué)回國人員科技活動(dòng)擇優(yōu)資助重點(diǎn)項(xiàng)目）

多孔鈣鈦礦型氧化物可控制備、催化性能及產(chǎn)品開發(fā)（北京市自然科學(xué)基金B(yǎng)類重點(diǎn)項(xiàng)目）

利用太陽能光催化規(guī)模制氫－光電化學(xué)電池制氫技術(shù)研究（科技部“973計(jì)劃”子課題）

利用太陽能催化有機(jī)物定向轉(zhuǎn)化（北京市屬市管高等學(xué)校“拔尖創(chuàng)新人才選拔計(jì)劃”項(xiàng)目）

高效丁烷氧化脫氫MOx/MoOx/介孔分子篩催化劑可控制備、表征及催化性能（教育部留學(xué)回國人員科研啟動(dòng)基金）

高效選擇性吸附分離N2、CO2和CH4的有機(jī)-無機(jī)骨架多孔材料的合成與表征（國家“863”項(xiàng)目）

nano-MOy/3DOM La1-xSrxMO3 (M = Cr, Mn, Co)的可控制備及其氧化VOCs的催化性能研究（國家自然科學(xué)基金面上項(xiàng)目）

高效光催化降解揮發(fā)性有機(jī)物多孔MOx/BiVO4可見光催化劑的創(chuàng)制與性能研究（服務(wù)北京創(chuàng)新人才培養(yǎng)項(xiàng)目）

學(xué)術(shù)兼職

目前擔(dān)任國際學(xué)術(shù)期刊“

The Open Catalysis Journal

The OpenConferenceProceedings Journal

Current Catalysis

The Scientific World Journal

Advances in Environmental Research

International Journal of Environment and Resource

Journal of Applied Chemistry

Journal of Environmental and Human

SOP Transactions on Catalysis

Aperito Journal of Nanoscience Technology

American Journal of Modern Chemical Engineering

The Global Environmental Engineers

Co-Editor-in-Chief

Journal of Applied Chemistry

Editor

Journal of Civil Engineering and Environmental Sciences

Editor

擔(dān)任國家自然科學(xué)基金委員會(huì)項(xiàng)目評(píng)審專家、科技部國際科技合作重點(diǎn)項(xiàng)目評(píng)審專家、教育部申報(bào)獎(jiǎng)項(xiàng)評(píng)審專家、科技部項(xiàng)目論證和評(píng)審專家、北京市科學(xué)技術(shù)委員會(huì)項(xiàng)目評(píng)議專家。

擔(dān)任100余種國內(nèi)外學(xué)術(shù)期刊的審稿專家：Angewandte Chemie International Edition; Chemical Communications; Journal of Catalysis; Chemistry of Materials; ACS Catalysis; Nanoscale; Inorganic Chemistry; Environmental Science & Technology; Journal of Physical Chemistry C; Applied Catalysis B: Environmental; Journal of Hazardous Materials; International Journal of Hydrogen Energy; ChemSusChem; Scripta Materialia; Scientific Reports; The AIChE Journal; Langmuir; Nano; Nano Energy; Carbon; Physical Chemistry Chemical Physics; Crystal Growth & Design; ACS Applied Materials & Interfaces; Applied Catalysis A: General; Catalysis Today; Journal of Molecular Catalysis A: Chemical; Catalysis Communications; ChemCatChem; Chemical Engineering Journal; Microporous and Mesoporous Materials; Energy & Fuels; Industrial & Engineering Chemistry Research; Catalysis Letters; Recent Patents on Chemical Engineering; RSC Advances; Catalysis Science & Technology; Current Nanoscience; Current Catalysis; The Open Catalysis Journal; Materials Chemistry and Physics; Ceramics International; Physica B-Condensed Matter; Environmental Engineering Science; Journal of Electrochemical Society; Journal of Alloys and Compounds; Journal of Materials Science; Journal of Materials Science & Technology; Journal of Materials Engineering and Performance; Journal of Solid State Chemistry; Materials; Materials Letters; Materials Express; Materials Research Bulletin; The Open Ceramic Science Journal; Applied Surface Science; Solid State Sciences; Separation and Purification Technology; Journal of Physical Chemistry of Solids; Advanced Chemical Engineering Research; Materials Science in Semiconductor Processing; Electrochemical and Solid-State Letters; CLEAN - Soil, Air, Water; InternationalJournalofSmartandNanoMaterials; Synthesis and Reactivity in Inorganic, Metal-Organic, and Nano-Metal Chemistry; Latin American Applied Research; Arabian Journal of Chemistry; Journal of the Taiwan Institute of Chemical Engineers; Journal of Polymer Research; Journal of Experimental Nanoscience；Journal of Environmental Sciences; Frontier of Environmental Science and Technology in China; Acta Metallurgica Sinica;Zeitschrift für Anorganische und Allgemeine Chemie;Journal of Natural Gas Chemistry;中國科學(xué)B輯；科學(xué)通報(bào)；化學(xué)學(xué)報(bào)；高等學(xué)校化學(xué)學(xué)報(bào)；高等學(xué)?；瘜W(xué)研究；中國稀土學(xué)報(bào)；石油化工；催化學(xué)報(bào)；中國化學(xué)；環(huán)境工程學(xué)報(bào)；化工環(huán)保；環(huán)境化學(xué)；物理化學(xué)學(xué)報(bào)；材料研究學(xué)報(bào)；應(yīng)用化學(xué)；結(jié)構(gòu)化學(xué)；化學(xué)研究與應(yīng)用；新型炭材料 等。

科研成果

在近12年內(nèi)共發(fā)表論文240余篇，其中SCI收錄論文100余篇【SCI影響因子IF高于3.0的論文44篇，其中催化領(lǐng)域世界頂級(jí)刊物Journal of Catalysis論文8篇，Applied Catalysis B: Environmental論文4篇，Inorganic Chemistry論文3篇，Environmental Science & Technology論文2篇，Journal of Physical Chemistry C論文3篇，Applied Catalysis A: General 論文9篇，Catalysis Today論文9篇，Journal of Molecular Catalysis A: Chemical論文2篇，以及主編特邀長篇綜述論文1篇（Current Topics in Catalysis: Research Trend）】，科學(xué)通報(bào)、高等學(xué)?；瘜W(xué)學(xué)報(bào)、催化學(xué)報(bào)等中文核心期刊論文50余篇，國內(nèi)外學(xué)術(shù)會(huì)議論文或摘要90余篇。主編和與他人合編教材或參考書4部，申請專利36項(xiàng)（含1項(xiàng)美國發(fā)明專利，已獲授權(quán)16項(xiàng)）。

主要科研貢獻(xiàn)

（1）進(jìn)行了雜原子摻雜類鈣鈦礦型氧化物催化材料的可控制備及其乙烷選擇催化氧化的開創(chuàng)性研究工作，首次揭示了鹵離子摻雜對(duì)催化材料物化性質(zhì)的調(diào)變作用，創(chuàng)制了催化活性優(yōu)異的鹵離子摻雜復(fù)合氧化物催化劑；（2）首次提出堿土金屬離子與稀土金屬離子之間和鹵離子與氧離子之間的離子交換或部分取代引起晶格畸變，增加晶格缺陷密度，調(diào)變酸堿性，從而提高材料的催化活性；

（3）首次發(fā)現(xiàn)乙烷選擇催化氧化可制取適于乙烯氫甲?；磻?yīng)的原料氣C2H4/CO/H2；

（4）首次提出并建立了高分散多層活性組分負(fù)載型催化材料的分子自組裝可控制備方法，揭示了引入中間層活性組分或強(qiáng)堿性化合物顯著改善催化性能的作用機(jī)制，構(gòu)建了高效低碳烷烴氧化脫氫系列催化材料；

（5）建立了合成一系列高比表面積多孔（介孔、大孔）材料的軟模板-硬模板聯(lián)用和檸檬酸絡(luò)合-水熱合成等新方法，創(chuàng)制了一批具有優(yōu)異的吸附性能和（光）催化性能的新型功能材料；

（6）首次系統(tǒng)地研究了具有特定形貌的單晶鈣鈦礦型氧化物的可控制備與催化性能，揭示了單晶態(tài)復(fù)合氧化物的催化本質(zhì)。

代表性論文

Publications in 2015

236. Wei Tan, Jiguang Deng, Shaohua Xie, Huanggen Yang, Yang Jiang, Guangsheng Guo*,

Hongxing Dai*

“Ce

YOnanorods supported gold and

alloy nanoparticles:High-performancecatalystsfortolueneoxidation

235.Yujuan Zhang, Lei Zhang, Jiguang Deng, Shaohua Xie, Huanggen Yang, Yang Jiang,

Hongxing Dai*

“Synthesis, characterization, and catalytic properties of

/SBA-16 for toluene oxidation

234.Hamidreza Arandiyan,

Hongxing Dai*

“Enhanced catalytic efficiency of

nanoparticles supported on three-dimensionally ordered macro-/mesoporous CeZrYOfor methane combustion”

233.Yucheng Du, Liping Wang,Jinshu Wang, GuangweiZheng,Junshu Wu,

Hongxing Dai*

“Flower-, needle-, wire-,andsheet-like MnOdepositeddiatomites:Highly efficient absorbents for the removal ofCr(VI)

29:

232.Yujuan Zhang, Jiguang Deng, Han Zhang, Yuxi Liu,

Hongxing Dai*

“Three-dimensionally ordered macroporous PrOand TbOwith mesoporous walls: preparation, characterization, and catalytic activity for CO oxidation

245:

231.Hamidreza Arandiyan,

Hongxing Dai*

“Pt nanoparticles embedded in colloidal crystal templating derived 3D ordered macroporous CeZrYO: Highly efficient catalysts for methane combustion”

5:

230.Yang Jiang, Jiguang Deng,Shaohua Xie, Huanggen Yang,

Hongxing Dai*

“Au/MnO/3DOM LaSrMnO: Highly active nanocatalysts for the complete oxidation of toluene

54(3):

229.Kemeng Ji,

Hongxing Dai*

“3DOM BiVOsupported silver bromide and noble metals: High-performance photocatalysts for the visible-light-driven degradation of 4-chlorophenol”

168:

228. Kemeng Ji, Jiguang Deng, Hongjun Zang, Jiuhui Han, Hamidreza Arandiyan,

Hongxing Dai*

“Fabrication and high photocatalytic performance of noble metal nanoparticles supported on 3DOM InVO-BiVOfor the visible-light-driven degradation of rhodamine B and methylene blue

165:

227.Shaohua Xie, Jiguang Deng, Simiao Zang, Huanggen Yang, Guangsheng Guo,Hamid Arandiyan,

Hongxing Dai*

“Au-Pd/3DOM CoO: Highly active and stablenanocatalystsfor toluene oxidation

322:

226.Yong Qin, Zhimin Zhang,

Hongxing Dai*

“Photocatalytic synthesis of isopentenyl polyether-acrylate copolymer overFe-TiOand its performance”

38 (1):

-

Publications in 2014

225.

Hongxing Dai*

“Editorial”

1(1):

224.Wei Tan, Guangsheng Guo, Jiguang Deng, Shaohua Xie, Huanggen Yang, Yang Jiang,

Hongxing Dai*

“Au/CeZrYOnanorods:Highlyactivecatalystsfor the oxidation ofcarbon monoxide and toluene”

53(48):18452-18461

223.Yazhou Wang, Jiguang Deng, Sixu Deng, Hao Wang, Hui Yan,

Hongxing Dai

“Morphologically controlled synthesis of porous spherical and cubic LaMnOwith high activity for the catalytic removal of toluene

6(20):

222.Yujuan Zhang, Jiguang Deng, Lei Zhang,

Hongxing Dai*

Preparation and catalytic performance of Fe-SBA-15 and

/SBA-15 for toluene combustion

Cover article

59 (31):

221. Yucheng Du,GuangweiZheng, Liping Wang,Jinshu Wang, Junshu Wu,

Hongxing Dai*

“MnOnanowires in situ grown ondiatomite: Highly efficient absorbents for the removal of Cr(VI) and As(V)

200:

219. Fang Wang,

Hongxing Dai*

Preparation and catalytic performance of nanoplate-aggregated CoOmicropheres for the combustion of toluene

35 (9):

218. Shaohua Xie,

Hongxing Dai*

“Preparation and high catalytic performance of Au/3DOM MnOfor the oxidation of

and toluene

279:

217.Huanggen Yang,

Hongxing Dai*

“Porous cube-aggregated CoOmicrosphere-supported gold nanoparticles for oxidation of carbon monoxide and toluene”

7 (6):

216.Hamidreza Arandiyan,

Hongxing Dai*

Three-dimensionally ordered macroporous LaSrMnOsupported Ag nanoparticles: Highly active catalysts for the combustion of methane

Cover article

118 (27):

215. Zongcheng Zhan, Xiaojun Liu, Dongzhu Ma, Liyun Song, Jinzhou Li, Hong He,

Hongxing Dai

Novel synthetic approaches and TWC catalytic performance of flower-like Pt/CeO”

8 (4):

214. Wen Han, Jiguang Deng, Shaohua Xie, Huanggen Yang,

Hongxing Dai*

“Gold supported on iron oxide nanodisk as efficient

for the removal of toluene

53 (9):

213. Kemeng Ji,

Hongxing Dai*

Sucrose-assisted PMMA-templating fabrication andcatalytic performanceofthree-dimensionallyordered macroporousEuFeOfor toluene combustion

27:

-

212.Yuxi Liu,

Hongxing Dai*

“Mesoporous CoOsupported gold nanocatalysts: Highly active for the oxidation ofcarbon monoxide, benzene, toluene, and

o

-xylene”

309:

-

211. Yujuan Zhang, Jiguang Deng, Lei Zhang,

Hongxing Dai*

Preparation and catalytic performance of Fe-SBA-15 and FeO/SBA-15 for toluene combustion

Cover article

59 (26):

210.Deng Jiguang, He Shengnan, Xie Shaohua, Yang Huanggen, Liu Yuxi,

Dai Hongxing

Research advancements of ordered porous metal oxide catalysts for the oxidative removal of volatile organic compounds

35 (6):