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2021年燕山大学化学工程专业调剂信息

来源:互联网 qinyiwen 2021-03-04
  2021年考研已进入调剂阶段,各高校也陆续的发布了2021年调剂信息,以供考生参考,以下为《2021年燕山大学化学工程专业调剂信息》。
  谷建民简介:博士(1984),博士生导师,副教授,本科毕业于东北师范大学化学学院,博士毕业于中国科学院化学研究所光化学重点实验室。主要研究方向为低维无机、有机、无机-有机复合材料的构筑及微纳光子学中激发态过程研究、能量转换与存储材料及器件的设计及机制研究、基于光子-电子相互作用构建能量转换与存储器件。
 
  本课题组招收2021年调剂研究生,应用化学,化学工程与工艺,化学等方向,考试科目:英语一;数学二。有意者发简历至jmgu ysu.edu.cn,或者加qq谷老师(280308953);王依然师姐(3479186301)张森林师姐(1722117460),尹克师兄(1722117460),课题组网站:https://www.researchgate.net/profile/jianmin_gu2;
 
  如果表现出色,本课题的学生可以被推荐到中国科学院系统知名课题组进行联合培养。
 
  燕山大学读研期间基本待遇:每个月可获得800元的国家补助,表现优秀的研究生可参评国家奖学金(2万元)。学校对硕士研究生设立了学业奖学金分为三个等级:一等奖学金:每生每年8000元;二等奖学金:每生每年4000元;三等奖学金:每生每年1600元。奖学金覆盖率达到90%。除学校补助外根据读研期间表现课题组发放论文津贴。
 
  学校调剂要求:
 
  本科专业为化学、材料、化工等相关专业,分数达国家一区线。
 
  报考专业代码081700化学工程与技术(学硕);085216化学工程(专硕);070300化学。
 
  基金支持:
 
  1.国家自然科学基金青年科学基金,纳米复合非线性光学材料的构筑及其激光自倍频机理研究,2015-2017,主持
 
  2.河北省自然科学基金面上项目,低维有机金属卤化物钙钛矿发光材料的构筑及其激发态调控机制研究,2020-2022,主持
 
  3.河北省高等学校科学技术研究项目,低维有机半导体复合材料的构筑及电致化学发光性能研究,2020-2022,主持
 
  2.中国博士后基金面上项目,纳米复合激光自倍频材料可控构筑及非线性光学机理探究,2014-2016,主持
 
  3.河北省自然科学基金青年基金,有机-无机层状钙钛矿微纳结构的非线性光学机理研究,2017-2019,主持
 
  代表性论文(4篇ESI高被引;第一及通讯作者:中科院一区论文11篇;二区论文6篇;三四区论文8篇;合作论文18篇)
 
  1.J.M.Gu,Y.L.Yan,Y.S.Zhao*and J.N.Yao,*Controlled Synthesis of Bulk Polymer Nanocomposites with Tunable Second Order Nonlinear Optical Properties.Adv.Mater.2012,24,2249.(IF:27.398,中科院一区)
 
  2.J.M.Gu,*Z.P.Bian,B.P.Yin,C.H.Jin,X.Liu,Y.H.Gao,J.X.Wu,S.F.Tang,F.M.Gao*and Y.S.Zhao,*Simultaneous Structure and Luminescence Property Control of Barium Carbonate Nanocrystals through Small Amount of Lanthanide Doping.Sci.Bull.2017,62,1239.(IF:9.511,中科院一区)
 
  3.J.M.Gu,*Y.H.Gao,J.X.Wu,Q.Li,A.X.Li,W.Zhang,H.Y.Dong,B.Wen,F.M.Gao*and Y.S.Zhao,*Polymorph-Dependent Electrogenerated Chemiluminescence of Low-Dimensional Organic Semiconductor Structures for Sensing.ACS Appl.Mater.Interfaces 2017,9,8891.(IF:8.758,中科院一区)
 
  4.B.P.Yin,J.M.Gu,*M.Feng,G.C.Zhang,Z.Zhang,J.Zhong,C.Zhang,B.Wen*and Y.S.Zhao,*Epitaxial Growth of Dual-Color-Emitting Organic Heterostructures via Binary Solvent Synergism Driven Sequential Crystallization.Nanoscale 2019,11,7111-7116.(IF:6.895,中科院一区)
 
  5.J.M.Gu,*B.P.Yin,S.Fu,M.Feng,Z.Zhang,H.Dong,F.Gao*and Y.S.Zhao,*Surface tension driven aggregation of organic nanowires via lab in a droplet.Nanoscale 2018,10,11006.(IF:6.895,中科院一区)
 
  6.J.M.Gu,*J.X.Wu,C.Jin,X.Sun,B.Yin,G.C.Zhang,B.Wen*and F.M.Gao,*Solvent engineering for high conversion yields of layered raw materials into large-scale freestanding hybrid perovskite nanowires.Nanoscale 2018,10,17722.(IF:6.895,中科院一区)
 
  7.J.M.Gu,*J.X.Wu,Y.H.Gao,T.H.Wu,Q.Li,A.X.Li,J.Y.Zheng,B.Wen*and F.M.Gao,*Electrogenerated chemiluminescence logic gate operations based on molecule-responsive organic microwires.Nanoscale 2017,9,10397.(IF:6.895,中科院一区)
 
  8.J.M.Gu,X.Y.Fan,X.Liu,S.H.Li,*Z.Wang,S.F.Tang and D.L.Yuan,Mesoporous manganese oxide with large specific surface area for high-performance asymmetric supercapacitor with enhanced cycling stability.Chem.Eng.J.2017,324,35.(IF:10.652,中科院一区,ESI)
 
  9.G.C.Zhang,J.Zhong,*M.Xu,Y.Yang,Y.Li,Z.Fang,S.Tang,D.Yuan,B.Wen,*and J.M.Gu,*Ternary BiVO4/NiS/Au Nanocomposites with Efficient Charge Separations for Enhanced Visible Light Photocatalytic Performance.Chem.Eng.J.2019,375,122093.(IF:10.652,中科院一区)
 
  10.Z.Wang,J.M.Gu,*S.H.Li,*G.C.Zhang,J.Zhong,X.Fan,D.Yuan,S.Tang,D.Xiao*One-Step Polyoxometalates-Assisted Synthesis of Manganese Dioxide for Asymmetric Supercapacitors with Enhanced Cycling Life span.ACS Sustainable Chem.Eng.2019,7,258-264.(IF:7.63,中科院一区)
 
  11.J.M.Gu,Y.L.Yan,C.Zhang,J.N.Yao and Y.S.Zhao,*Inclusion Induced Second Harmonic Generation in Low Dimensional Supramolecular Crystals.J.Mater.Chem.C 2014,2,3199.(IF:7.059,中科院一区)
 
  12.T.Wu,W.Zhao,J.M.Gu,*G.C.Zhang,M.Feng,X.Sun,B.P.Yin,H.Jiang,B.Wen,*and F.Gao,*Homoleptic cyclometalated iridium(III)complex nanowires electrogenerated chemiluminescence sensors for high-performance discrimination of proline enantiomers based on the difference of electron-transfer capability.Talanta 2019,194,98.(IF:5.339,中科院二区,ESI)
 
  13.C.Jin,M.Feng,J.Zhong,*X.Sun,J.Wu,Q.Li,J.M.Gu,*S.Liu,*Insights into mechanism of size-controlled synthesis of CH3NH3PbBr3 perovskite quantum dots and large nanoparticles with tunable optical properties.Org.Electron.2020,82,105712.(IF:3.31,中科院二区)
 
  14.Y.Chu,J.Zhong,*Z.Fang,Y.Yang,J.Qi,S.Yu,*J.M.Gu,*Ni(HCO3)2 nanosheets/nickel tetraphosphate nanowires composite as high performance electrode materials for asymmetric supercapacitors.Nanotechnology 2020,31,015401.(IF:3.551,中科院二区,ESI)
 
  15.Z.Wang,J.M.Gu,*X.Liu,X.Sun,J.Li,S.Li,S.Tang,B.Wen*and F.M.Gao,*Hierarchical self-assembly flower-like ammonium nickel phosphate as high-rate performance electrode materials for asymmetric supercapacitors with enhanced energy density.Nanotechnology 2018,29,425401.(IF:3.551,中科院二区)
 
  16.J.M.Gu,*X.Liu,Z.Wang,Z.P.Bian,C.H.Jin,X.Sun,B.P.Yin,T.H.Wu,L.Wang,S.F.Tang,H.C.Wang and F.M.Gao,*Controllable synthesis of nickel bicarbonate nanocrystals with high homogeneity for high-performance supercapacitor.Nanotechnology 2017,28,345401.(IF:3.551,中科院二区)
 
  17.X.Y.Fan,B.Yin,T.Wu,M.Feng,G.C.Zhang,S.H.Li,S.Tang,J.M.Gu,*B.Wen*and L.Lu,*Rice Husk-Based 3D Porous Silicon/Carbon Nanocomposites as Anode for Lithium-Ion Batteries.Energy Technol.2019,7,1800787.(IF:3.404,中科院二区)
 
  18.J.M.Gu,*B.P.Yin,S.Y.Fu,C.H.Jin,X.Liu,Z.P.Bian,J.J.Li,L.Wang and X.Y.Li,Controlled self-assembly of low-dimensional Alq3 nanostructures from 1D nanowires to 2D plates via intermolecular interactions.Electron.Mater.Lett.2018,14,181.(IF:1.894,中科院三区)
 
  19.M.Feng,J.M.Gu,*G.C.Zhang,M.Xu,Y.Yu,X.Liu,Z.Wang,B.Yin,Y.Liu,*Homogeneous nickel bicarbonate nanocrystals as electrode materials for high-performance asymmetric supercapacitors.J.Solid State Chem.2020,282,121084.(IF:2.726,中科院三区,ESI)
 
  20.J.M.Gu,*S.Y.Fu,C.H.Jin,X.Liu,Y.H.Gao,J.X.Wu,Z.P.Bian,H.Tian,L.Wang and F.M.Gao,Morphological evolution of prussian yellow Fe[Fe(CN)6]colloidal nanospheres,J.Solid State Chem.2016,239,64.(IF:2.726,中科院三区)
 
  21.J.M.Gu,S.H.Li,E.B.Wang,*Q.Y.Li,G.Y.Sun,R.Xu,H.Zhang,Single-crystallineα-Fe2O3 with hierarchical structures:Controllable synthesis,formation mechanism and photocatalytic properties.J.Solid State Chem.2009,182,1265.(IF:2.726,中科院三区)
 
  22.J.M.Gu,C.H.Jin,Z.P.Bian,X.Liu,S.H.Li,*S.F.Tang and D.L.Yuan,Asymmetric Capacitors Based on TiO2 and Mesoporous MnO2 Electrodes Using Neutral Aqueous Electrolyte.J.Nanopart.Res.2017,19,322.(IF:2.132,中科院三区)
 
  23.J.M.Gu,S.H.Li,M.L.Ju,E.B.Wang,*In situ carbon template-based strategy to fabricate ferrite hollow spheres and their magnetic property.J.Cryst.Growth 2011,320,46.(IF:1.632,中科院四区)
 
  24.N.Qu,G.C.Zhang,Z.Bian,M.Feng,X.Sun,G.Chen,A.D.Li,J.M.Gu,*J.Li*and F.M.Gao,*Hydrothermal synthesis of single-crystalline one dimensionalβ-BaB2O4 microrods with second order nonlinear optical properties.Mater.Res.Express 2019,6,016201.(IF:1.929,中科院四区)
 
  25.M.Qi,Y.Liu,M.Xu,M.Feng,J.M.Gu,*Y.Liu,*L.Wang,*Improved electrochemical performances of carbon-coated LiFePO4 microspheres for Li-ion battery cathode.Mater.Res.Express 2019,6,115520.(IF:1.929,中科院四区)
 
  以上就是关于“2021年燕山大学化学工程专业调剂信息”的内容!

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