狂爱KIKI
联合利华旗下产品!联合利华集团是由荷兰Margrine Unie人造奶油公司和英国Lever Brothers香皂公司于 1929年合并而成。总部设于荷兰鹿特丹和英国伦敦,分别负责食品及洗剂用品事业的经营。在全球75个国家设有庞大事业网络,拥有500家子公司,员工总数近30万人,是全球第二大消费用品制造商, 年营业额超过美金400亿元,是全世界获利最佳的公司之一。早在二十世纪三十年代,联合利华的前身利华兄弟公司在上海投资开设的中国肥皂有限公司生产的“力士”香皂、“伞”牌肥皂等产品因品质优良成为中国市场的畅销货。1986年联合利华重返上海,第一家合资企业上海利华有限公司继续生产“力士”香皂。限于当时的生活水平,使用“力士”香皂被年轻人视作“开放”、“时尚”的象征。至今“力士”是中国销量第一的香皂。上海利华有限公司自1987年12月正式投产以来,企业规模不断扩大,产品品种年年增加,经济效益日益提高。产品品种从初期单一的力士香皂2种规格发展到1996年的四大类72种规格。地址为上海市杨树浦路2310号。公司现已发展成为全国著名的日化产品企业,连续六年被评为外商投资先进技术企业,并荣获94年度全国外商投资双优企业称号。1995至1996年度被列入全国500家最大外商投资工业企业行列。 自一九八六年至一九九九年,联合利华在中国已投资八亿美元,建立了十四家合资企业,引进一百多项先进的专利技术。旁氏、力士、夏士莲、奥妙、中华、立顿黄牌、和路雪等十三个品牌分属家庭及个人护理用品、冰淇淋、食品等三个系列的产品,使得在中国贴有联合利华标签的产品种类已经可供开设一家很象样的商店,并且联系着人们日常生活的各个方面。 目前,联合利华在全球有400多个品牌,其中大部分是收购来并推广到世界各地,比如,旁氏原是一个美国品牌,联合利华将其买下并发展为一个护肤品名牌,推广到中国;而“夏士莲”原是在东南亚推广的一个英国牌子,联合利华也将其引入中国。“成为本地化的跨国公司”是联合利华的全球经营宗旨和长期以来的传统。这些年来,联合利华不仅将众多国际品牌带进中国市场;同时大力培植中国本地的品牌。在上海收购了一个食品类名牌“老蔡酱油”之后,1999年又有两次引人注目的收购行动:一是收购北京食品名牌“京华茶叶”,二是利用旗下占有世界15%市场份额的冰激凌品牌“和路雪”收购另一上海冰激凌名牌“蔓登琳”。。 联合利华认识到结合国际化的科学技术和经营经验的“本地化”才会有生命力,遂投资一亿六千六百万元人民币,在上海成立其设于世界各地的第六个研究发展中心——联合利华中国研究发展中心。该中心拥有一百五十名中国科技人员;着重于产品配方的研究,尤其注重将中国传统科学所倡导的天然成分引入联合利华的产品中。2000年9月22日,由上海轻工控股(集团)公司和国际著名的跨国公司共同投资重组的联合利华股份有限公司在上海宣告成立。这是上海建设轻工新高地的一次重大资产重组,被上海市****领导赞誉为“上海经济发展的一个亮点,都市型工业的一支生力军。”英荷联合利华公司是上海轻工控股(集团)公司的重要合作伙伴。近年来,双方共同投资,先后组建了上海旁氏有限公司、上海利华有限公司、上海联合利华牙膏有限公司和上海伊利达有限公司4家合资企业。为了壮大经营规模,增强市场竞争力,双方决定重组这4家合资企业,成立新的联合利华股份有限公司,其年销售额将超过40亿元。 目前,联合利华在世界各地的分公司分归十二个业务集团。其中,总部设在上海的中国业务集团分管中国大陆、香港、澳门、台湾等地区和蒙古的业务。
北京大妞轩儿
发表论文:1.HuiXin, Kai Guo, Dan Li*,Huaqing Yang*, Changwei HuProduction of High-grade Diesel from Palmitic Acid over Activated Carbon-supported Nickel Phosphide CatalystsAppl. Catal. B-Environ., 2016, DOI: 10.1016/j.apcatb.2016.01.051. (B级, 2014-IF=7.435)2.Li-KeRen; Hua-Qing Yang*; Chang-Wei Hu*“Theoretical Study on the Catalytic Oxidation Mechanism of 5-Hydroxymethylfurfural to 2, 5-Diformylfuran by PMo-Containing KegginHeteropolyacid”Catal. Sci. & Technol., 2016, DOI: 10.1039/C5CY01895A. (C级, 2014-IF=5.426)3.Ting Qi, Hua-Qing Yang*, Dennis M. Whitfield, Kui Yu*, Chang-Wei HuInsights into the Mechanistic Role of DiphenylphosphineSelenide, Diphenylphosphine, and Primary Amines in the Formation of CdSe Monomers J. Phys. Chem. A, 2016, DOI:10.1021/acs.jpca.5b10675. (C级, 2014-IF=2.693) Ben-Fang Su; Hong-Quan Fu; Hua-Qing Yang*; Chang-Wei Hu “Catalytic Reduction Mechanism of NO by CO on Rh4 Cluster: A Density Functional Theory Study”Catal. Sci.& Technol., 2015, 5, 3203–3215.(C级, 2014-IF=5.426)5.Shu Chen; Hua-Qing Yang*; Chang-Wei Hu*“Theoretical Study on the Reaction Mechanisms of the Aldol-condensation of 5-hydroxymethylfurfural with Acetone Catalyzed by MgO and MgO”Catal. Today, 2015, 245, 100–107.(C级, 2014-IF=3.893)6.Hong-Quan Fu; Ben-Fang Su; Hua-Qing Yang*; Chang-Wei Hu“Theoretical Insight into C-H and C-C Scission Mechanism of Ethane on Tetrahedral Pt4Subnanocluster”RSC Adv., 2015, 5, 40978–40988.(C级, 2014-IF=3.840)7.Hua-Qing Yang; Hong-Quan Fu; Ben-Fang Su; Bo Xiang; Qian-QianXu; Chang-Wei Hu*“Theoretical Study on the Catalytic Reduction Mechanism of NO by CO on Tetrahedral Rh4Subnanocluster”J. Phys. Chem. A,2015, 119, 11548−11564. (C级, 2014-IF=2.693)8.Kui Yu*; Xiangyang Liu; Queena Y. Chen; Huaqing Yang*; Mingli Yang; Xinqin Wang; Xin Wang; Hong Cao; Dennis M. Whitfield; Changwei Hu; Ye Tao“Mechanistic Study of the Role of Primary Amines in Precursor Conversions to Semiconductor Nanocrystals at Low Temperature”Angew. Chem. Int. Ed.,2014, 53, 6898–6904.(B级, 2014-IF=11.261)9.Meng-Fu He; Hong-Quan Fu; Ben-Fang Su; Hua-Qing Yang*; Jin-Qiang Tang; Chang-Wei Hu*“Theoretical Insight into the Coordination of Cyclic β-D-Glucose to [Al(OH)(aq)] and [Al(OH)2(aq)] Ions”J. Phys. Chem. B, 2014, 118, 13890−13902.(C级, 2014-IF=3.302)10.Ting-Yong Ju; Hua-Qing Yang*; Fang-Ming Li; Xiang-Yuan Li ; Chang-Wei Hu*“Activation of Propane C-H and C-C Bonds by a Diplatinum Cluster: Potential EnergySurfaces and Reaction Mechanisms”Struct. Chem.,2014, 25, 471−481. (D级, 2014-IF=1.837)11.Ting-Yong Ju; Hua-Qing Yang*; Fang-Ming Li; Xiang-Yuan Li; Chang-Wei Hu*“Reaction Mechanism on the Activation of Ethane C-H and C-C Bonds by a Diplatinum Cluster”Theor. Chem.Acc., 2013, 132(9), 1387−1400. (D级, 2014-IF=2.233)12.QianqianXu; Huaqing Yang*; Chao Gao; Changwei Hu*“Theoretical Study on the Reaction Mechanism of NO and CO Catalyzed by Rh Atom”Struct.Chem., 2013, 24, 14−23.(D级, 2014-IF=1.837)13.Caiqin Li; Huaqing Yang*; JianXu; Changwei Hu“Hydroxylation Mechanism of Methane and its Derivatives over Designed Methane Monooxygenase Model with PeroxoDizinc Core”Org. Biomol. Chem., 2012, 10, 3924−-3931.(D级, 2014-IF=3.562)14.Fangming Li; Huaqing Yang*; TingyongJu; Xiangyuan Li; Changwei Hu“Activation of Propane C-H and C-C Bonds by Gas-Phase Pt Atom: A Theoretical Study”Int. J. Mol. Sci., 2012, 13, 9278−9297. (D级, 2014-IF=2.862)15.Song Qin; Huaqing Yang*; Chao Gao; JianXu; Changwei Hu*“Methane Dehydrogenation on Monomeric Rh Center Located on (100)γ-alumina — A Theoretical Study”Surf. Sci., 2012, 606, 1899–1905.(D级, 2014-IF=1.925)16.Fangming Li; Huaqing Yang*; TingyongJu; Xiangyuan Li; Changwei Hu“Activation of C–H and C–C Bonds of Ethane by Gas-phase Pt atom: Potential Energy Surface and Reaction Mechanism”Comput.Theor.Chem., 2012, 994, 112−120.(E级, 2014-IF=1.545)17.Liang Dong; Jun Wen; Song Qin; Na Yang; Huaqing Yang; Zhishan Su; Xiaoqi Yu; Changwei Hu*“Iron-Catalyzed Direct Suzuki−Miyaura Reaction: Theoretical and Experimental Studies on the Mechanism and the Regioselectivity”ACS Catal.,2012, 2, 1829−1837.(B级, 2014-IF=9.312)18.Liang Dong; Song Qin; Huaqing Yang; Zhishan Su; Changwei Hu*“Theoretical Investigation on Copper Hydrides Catalyzed HydrosilylationReaction of 3-methylcyclohex-2-enone: Mechanism and Ligands’ Effect”Catal. Sci. Technol., 2012, 2, 564–569.(C级, 2014-IF=5.426)19.Huaqing Yang; Changwei Hu*; Chao Gao; Mengyao Yang; Fangming Li; Caiqin Li; Xiangyuan Li“Theoretical Study on the Gas-Phase Reaction Mechanism Between Palladium Monoxide and Methane”J.Comput.Chem.,2011, 32, 3440−3455.(C级, 2014-IF=3.589)20.Mengyao Yang; Huaqing Yang*; Chao Gao; Song Qin; Changwei Hu*“Theoretical Study on the Gas-phase Reaction Mechanism BetweenRhodium Monoxide Cation and Methane”Struct.Chem., 2011, 22, 983−997.(D级, 2014-IF=1.837)21.Weiyi Li; Song Qin; Zhishan Su; Huaqing Yang; Changwei Hu*“Theoretical Study on the Mechanism of Al(salalen)-Catalyzed Hydrophosphonylation of Aldehydes”Organometallics,2011, 30, 2095–2104.(C级, 2014-IF=4.126)22.Chao Gao; Huaqing Yang*; JianXu; Song Qin; Changwei Hu*“Theoretical Study on the Gas-phase Reaction Mechanism BetweenRhodium Monoxide and Methane for Methanol Production”J.Comput.Chem.,2010, 31(5), 938−953.(C级, 2014-IF=3.589)23.JianXu; Huaqing Yang*; Song Qin; Changwei Hu*“Theoretical Study on Methane Hydroxylation by Mimic Methane Monooxygenase with Bis(μ-oxo)dimanganeseBore”J.Theor.&Comput.Chem.,2010, 9(1), 233−247.(E级, 2014-IF=0.638)24.Xiuli Cao; Song Qin;Zhishan Su; Huaqing Yang; Changwei Hu*; XiaomingFeng*“Theoretical Study on Hetero-Diels–Alder Reaction of Butadiene with Benzaldehyde Catalyzed by Chiral InIII Complexes”Eur. J. Org. Chem.,2010, 20, 3867−3875.(D级, 2014-IF=3.065)25.Liang Dong; Song Qin;Zhishan Su; Huaqing Yang; Changwei Hu*“Computational Investigation on the Mechanism and the Stereoselectivity of Morita–Baylis–Hillman Reaction and the Effect of the BifunctionalCatalyst N-methylprolinol”Org.Biomol.Chem.,2010, 8 3985−3991.(D级, 2014-IF=3.562)26.Huaqing Yang; Song Qin; Song Qin; Changwei Hu*“Theoretical Study on the Gas-Phase Reaction Mechanism Between Nickel Monoxide and Methane for Syngas Production”J.Comput.Chem.,2009, 30(6), 847−863.(C级, 2014-IF=3.589)27.Song Qin; Huaqing Yang; Song Qin; JianXu; Changwei Hu*“A DFT Study on the Reaction Mechanism of SrO + CH4”J.Theor.&Comput.Chem.,2008, 7(2), 189−203.(E级, 2014-IF=0.638)28.Song Qin; Changwei Hu*; Huaqing Yang; Zhishan Su; Dianyong Tang“Computational Investigation on Stereochemistry in Tianium-Salicylaldehydes-Catalyzed Cyanation of Benzaldehyde”J. Org. Chem.,2008, 73(13), 4840−4847.(C级, 2014-IF=4.721)29.Huaqing Yang; Changwei Hu*; Qin Song“Theoretical Study on the Reaction Mechanism of CH4 with CaO”Chem. Phys.,2006, 330, 343−348. (D级, 2014-IF=1.652)30.Zhishan Su; Song Qin; Dianyong Tang; Huaqing Yang; Changwei Hu*“Theoretical Study on the Reaction of Methane and Zinc Oxide in Gas Phase”J. Mol. Struc. (THEOCHEM ),2006, 778, 41−48. (E级, 2014-IF=1.545)31.Song Qin; Changwei Hu*; Huaqing Yang; Zhishan Su“Theoretical Study on the Reaction Mechanism of the Gas-Phase H2/ CO2/Ni(D) System”J. Phys. Chem. A,2005, 109, 6498−6502. (C级, 2014-IF=2.693)32.Song Qin; Changwei Hu*; Huaqing Yang“Theoretical Study on the Mechanism of the Reaction of Ni(dS)+H2+CO2→NiCO+H2O”J.Theor.Comput.Chem.,2005, 4(2), 449−459.(E级, 2014-IF=0.638)33.Changwei Hu*; Huaqing Yang; Ning-Bew Wong*;Yaoqiang Chen; Maochu Gong; AnminTian; Can Li; Wai-Kee Li“A Theoretical Study on the Mechanism of the Reaction of CH4 + MgO”J. Phys. Chem. A,2003, 107, 2316−2323.(C级, 2014-IF=2.693)34.Changwei Hu*; Huaqing Yang; Yaoqiang Chen; Maochu Gong; AnminTian; Ning-Bew Wong“CH2 Activation by Naked Ni atom. A DFT study”J. Mol. Struc.(THEOCHEM ), 2003, 639, 35−42. (E级, 2014-IF=1.545)35.Huaqing Yang; Yaoqiang Chen; Changwei Hu*; Maochu Gong; Hairong Hu; AnminTian; Ning-Bew Wong“Methane Activation by Naked NiAtom: a Theoretical Study”Chem. Phys.Lett.,2002, 355, 233−240. (D级, 2014-IF=1.897)36.杨华清; 胡常伟; 陈耀强; 龚茂初; 田安民“MgO活化甲烷碳氢键的密度泛函研究”化学学报 (ActaChimSinica),2002, 60(7), 1334−1338.(E级, 2014-IF=1.426)37.Huaqing Yang; Yaoqiang Chen; Changwei Hu*; Hairong Hu; Maochu Gong; AnminTian; Ning-Bew Wang“C-H Bond Activation: Ni(dS) + CH4 → NiCH2 + H2. A DFT Study”J. Mol.Struc.(THEOCHEM), 2001, 574, 57−74. (E级, 2014-IF=1.545)38.Changwei Hu*; Jie Yao; Huaqing Yang; Yaoqiang Chen; AnminTian“On the Inhomogeneity of Low Nickel Loading MethanationCatalyst”J.Catal.,1997, 166(1), 1−7. (C级, 2014-IF=6.921)
1、 找突破口。很多人都不知道怎么进行选题,其实论文选题关键要找准突破口,通俗来讲就是找准切入点”,我们可以先将论文主要研究的内容确定下来,然后再从中找准切入点
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