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Li++I-2(-), the ab initio potential energy surfaces ( PES) of two electronic states (ionic B-2(2) state and covalent (2)A(1) state) were constructed by use of QCISD (T) method. Minimum energy reaction path on each PES and the crossing curve of the two-state PES were abstracted. According to the results, the most probable crossing radius (R-c(max)) between the ionic and covalent states was determined, and the fine electronic structure on the crossing point was calculated. The electron affinity of I-2 molecule and the dissociation energy of I-2(-) anion and the ionization potential of Li atom obtained from present PES are quite in agreement with the experimental and spectrum data. The ion-pair formation probability was calculated using Landau-Zener formula, and from it the scattering resonance state was found, which is similar to the Na+I-2-->Na++I-2(-) system. [article_dt] => Article [publication_type] => J [begin_page] => 1477 [author_en] => Sun, XM; Zhang, J; Feng, DC; Cai, ZT; Bian, WS [format_cscd_No] => 5c8c1df32c5c6ef5cb61eec17c149eeb-371538329 [volume] => 62 [publisher] => SCIENCE CHINA PRESS [get_data] => 2018-08-29 [keyword_en] => ab initio potential energy surface of two electronic states; ion-pair; formation probability; nonadiabatic coupling; scattering resonance state [page] => 1477-1483 [keyword_plu] => DIFFERENTIAL CROSS-SECTIONS; POTENTIAL-ENERGY SURFACES; SIMPLE CHEMICAL REACTIONS; MONTE CARLO TRAJECTORIES; TRANSITION-STATE REGION; ELECTRON-JUMP MODEL; REACTION-PRODUCTS; CONFIGURATION-INTERACTION; HALOGEN MOLECULES; NUCLEAR REACTIONS [format_publication_cn] => 6918be3b26b1fa6ec0424f6071208a75331227575 [publication_iso] => Acta Chim. Sin. [format_title_en_publication_en_pub_year] => 716061a46dbad6900467778d39ee56fc-926233727 [format_title_en] => 431f98da6d1e6c6bc5eeb4ea60eec44d138530212 [publisher_city] => BEIJING [cite_cscd] => 0 [pub_date] => AUG 28 [publication_info] => 0567-7351(2004)62:16<1477:LZDSCF>2.0.TX;2-Z [hx_id] => 2377,2378,2371 [email_c] => zhtcai@sdu.edu.cn [email] => zhtcai@sdu.edu.cn [reference_No] => 61 [format_issn_issue_page_pub_year] => 59aeb44408fbcb73e9c73dfc1d822dc638594057 [cite_awos] => 0 [cscd_No] => CSCD:1670942 [wos_No] => WOS:000223627900005 [format_wos_No] => a704138896afc2a53426b56c5d6b72b51336553184 [wos_sub] => Chemistry, Multidisciplinary [research_area] => Chemistry [check_180] => 0 [publisher_ad] => 16 DONGHUANGCHENGGEN NORTH ST, BEIJING 100717, PEOPLES R CHINA [standard_in] => Institute of Theoretical Chemistry, Shandong University, Jinan 250100, China; State Key Laboratory of Molecular Reaction Dynamics, Institute of Chemistry, Chinese Academy of Sciences, Beijing 100080, China [scopus_No] => 2-s2.0-33750435952 [title_en] => Theoretical study of the ion-pair formation process Li+I-2 -> Li++I-2(-): Ab initio PES and reaction probability [format_publication_en] => 169b60c7845c9e5f36906950b18f11111348184734 [jl_language] => chinese [jl_article_dt] => 期刊论文 [jl_author_test] => uirtypical3,upersonid23586,uirtstag0,unameuu5b59u5b5du654f,uuindex0,usureu0,utindex0,uirtag6,uirinspecttag0,uirauthortype0,unameuu5f20u541b,upersonid25489 [jl_publication_en] => actachimicasinica [sys_author_jg_last_arr] => 中国,中国 [jl_keyword_en] => abinitiopotentialenergysurfaceoftwoelectronicstates,nonadiabaticcoupling,formationprobability,ionpair,scatteringresonancestate [sys_author_in_last_arr] => china [jl_publisher] => sciencechinapress [sys_author_id] => [id] => LQkwvmUBFjIhTVEbmrnE [tags] => 0 ) [17] => Array ( [batch2] => 1,2,6 [batch] => 3249,3250,3252,3254,3243,3241 [tag] => 0 [abstract_cn] => 合成了周边含 4个丁氧基偶氮苯介晶基元 (M 5 )端基新的零代光致变色液晶树状物 (D0 ) ,并用元素分析、核磁共振、基质辅助激光解吸飞行时间质谱、红外、紫外、偏光显微镜、差示扫描量热 (DSC)和广角X射线衍射法 (WAXD)表征 .D0显示向列相 ,与M 5相同 ,树状物相态由介晶基元相态所决定 ,D0的相行为 :K13 8N14 7I14 5N118K .对零代 (D0 )、一代 (D1)、二代 (D2 )和三代 (D3 )液晶树状物的清亮焓、清亮熵、熔化焓和熔化熵进行了比较 [keyword_cn] => 光致变色液晶树状物;向列相;相变焓;相变熵 [article_id] => 490067,26632,661692,249263,330440,629388 [clc] => TQ460 [author_jg] => [张其震] 山东大学化学与化工学院, 济南, 山东 250100, 中国.@@@[刘建强] 山东大学化学与化工学院, 济南, 山东 250100, 中国.@@@[李爱香] 山东大学化学与化工学院, 济南, 山东 250100, 中国.@@@[张静智] 山东大学化学与化工学院, 济南, 山东 250100, 中国 [format_title_cn_publication_cn_pub_year] => 53ffe2f2c85d41671c63a29ab558062c [hints] => 4 [issue] => 3 [sys_level_num] => 2_3 [sys_jg_type] => 11,10,3,5 [format_issn_issue_page_pub_year] => d62b05b386c7c730a0d73310a709eec1 [source_type] => 351 [pub_year] => 2004 [pub_date] => FEB 14 [pages] => 5 [from_id] => 76,75,73,80,78,85 [author_cn] => 张其震,刘建强,李爱香,张静智 [issn] => 0567-7351 [uri] => https://www.scopus.com/inward/record.uri?eid=2-s2.0-18444364687&partnerID=40&md5=1103e3c904dedaf232724cbef9cc186d [publication_cn] => 化学学报 [title_cn] => 端基含4个丁氧基苯介晶基元光致变色液晶树状物的合成、结构及液晶性研究 [CSSN] => 31-1320/O6 [SYS_TAG] => 3 [format_title_cn_issn_pub_year] => a73c67608374f98b52f85cc98150b00f [page] => 312-316 [hb_type] => 2 [article_dt] => Article [hb_batch] => title_cn_publication_cn_pub_year_2_3 [publication_en] => ACTA CHIMICA SINICA [cite_wos] => 4 [fund_No] => 国家自然科学基金; 山东省自然科学基金资助项目 [check_3Y] => 2 [language] => Chinese [delivery_No] => 773BK [format_title] => f06f2e6fe391788d970552a8fcd25578-643096841 [cauthor_ad] => [Zhang, QZ]Shandong Univ, Sch Chem & Chem Engn, Jinan 250100, Peoples R China. [author_fn] => Zhang, QZ; Liu, JQ; Li, AX; Zhang, JZ [reference] => Archut A, 1998, J AM CHEM SOC, V120, P12187, DOI 10.1021/ja9822409@@@@@@BURON DJ, 1980, MOL CRYST LIQ CRYST, V58, P79@@@Busson P, 2001, MACROMOLECULES, V34, P1221, DOI 10.1021/ma992133e@@@CLARK CG, 1999, POLYM PREPR, V40, P484@@@Dardel B, 1999, MACROMOLECULES, V32, P5193, DOI 10.1021/ma990034v@@@@@@Donnil B, 2002, L.Macromolecules, V35, P370@@@GRAY GW, 1984, SMECTIC LIQUID CRYST, P21@@@Hudson SD, 1997, SCIENCE, V278, P449, DOI 10.1126/science.278.5337.449@@@Junge DM, 1999, J AM CHEM SOC, V121, P4912, DOI 10.1021/ja990387+@@@KANG SK, 1985, SYNTHESIS-STUTTGART, P1161@@@LECOIN D, 1975, MOL CRYST LIQ CRYST, V31, P233, DOI@@@10.1080/15421407508082875@@@Lorenz K, 1996, ADV MATER, V8, P414, DOI 10.1002/adma.19960080509@@@MARZOTKO D, 1973, LIQ CRYST P INT C BA, P189@@@Meier H, 1998, ANGEW CHEM INT EDIT, V37, P643, DOI@@@10.1002/(SICI)1521-3773(19980316)37:5<643::AID-ANIE643>3.3.CO;2-W@@@Nagasaki T, 1997, CHEM LETT, P717, DOI 10.1246/cl.1997.717@@@Okaniwa M, 2002, MACROMOLECULES, V35, P6232, DOI 10.1021/ma020388d@@@PERCEC V, 1995, J AM CHEM SOC, V117, P11441, DOI 10.1021/ja00151a008@@@Percec V, 2001, J AM CHEM SOC, V123, P1302, DOI 10.1021/ja0037771@@@SALZ IM, 1999, LIQ CRYST, V26, P1101@@@Stebani U, 1996, ANGEW CHEM INT EDIT, V35, P1858, DOI@@@10.1002/anie.199618581@@@@@@TAJIPER L, 2002, MACROMOLECULES, V35, P8601@@@Wooleg K L, 1993, J. Macromolecules, V26, P1514@@@Wunderlich B, 1988, J.Adv.Polym.Sci., V87, P1@@@[张其震 Zhang Qizhen], 2003, [化学学报, Acta Chemical Sinica], V61, P1478@@@[张其震 Zhang Qizhen], 2003, [高等学校化学学报, Chemical Journal of Chinese@@@Universities], V24, P1887@@@[张其震 Zhang Qizheng], 2003, [高等学校化学学报, Chemical Journal of Chinese@@@Universities], V24, P1704@@@[张其震 Zhang Qizhen], 2003, [化学学报, Acta Chemical Sinica], V61, P619@@@[张其震 Zhang Qizhen], 2003, [化学学报, Acta Chemical Sinica], V61, P1108@@@[张其震 Zhang Qizhen], 2003, [化学学报, Acta Chemical Sinica], V61, P416@@@[张其震 Zhang Qizhen], 2002, [化学学报, Acta Chemical Sinica], V60, P2232@@@张其震, 1998, 高等学校化学学报, V19, P1175@@@张其震, 1998, 高等学校化学学报, V19, P827@@@张其震, 1997, 高等学校化学学报, V18, P158@@@张其震, 2000, 功能高分子材料 [publication_29] => ACTA CHIM SINICA [end_page] => 316 [abstract_en] => The synthesis of a new photochromic liquid crystalline (LC) dendrimer of the zero generation (DO) is described. Four 4-butoxyazobenzene groups were used as mesogenic fragments and attached in its periphery. Structure and properties of DO were characterized by elemental analysis, H-1 NMR, MALDI-TOF-MS, IR, UV, polarizing optical micrograph, DSC and WAXD. Similar to NE, DO is nematic liquid crystal. The mesomorphic state of dendrimer D0 depends on that of mesogenic units. Phase behavior of D0 in LC state is K138N147I145N118K. The isotropic enthalpy, isotropic entropy, melting enthalpy and melting entropy of the dendrimers of the zero, first, second and third generations were compared. [author_in] => [Zhang, Q.-Z] School of Chemistry and Chemical Engineering, Shandong University, Jinan 250100, China@@@[ Liu, J.-Q] School of Chemistry and Chemical Engineering, Shandong University, Jinan 250100, China, School of Physics and Microelectronics, Shandong University, Jinan 250100, China@@@[ Li, A.-X] School of Chemistry and Chemical Engineering, Shandong University, Jinan 250100, China@@@[ Zhang, J.-Z] School of Chemistry and Chemical Engineering, Shandong University, Jinan 250100, China [publication_type] => J [begin_page] => 312 [author_en] => Zhang, QZ; Liu, JQ; Li, AX; Zhang, JZ [volume] => 62 [get_data] => 2018-08-29 [publisher] => SCIENCE CHINA PRESS [keyword_en] => photochromic liquid crystalline dendrimer; nematic; phase transition; enthalpy and entropy [format_publication_cn] => 6918be3b26b1fa6ec0424f6071208a75331227575 [keyword_plu] => 1ST GENERATION; SUPRAMOLECULAR DENDRIMERS; 2ND-GENERATION [publication_iso] => Acta Chim. Sin. [format_title_en] => 565e8797f1a4019d8c240b56dc2f658a-387125025 [publisher_city] => BEIJING [hx_id] => 2377,2378,2371 [reference_No] => 35 [email] => qzzhang@sdu.edu.cn [cite_awos] => 4 [wos_No] => WOS:000188877700015 [wos_sub] => Chemistry, Multidisciplinary [research_area] => Chemistry [check_180] => 0 [publisher_ad] => 16 DONGHUANGCHENGGEN NORTH ST, BEIJING 100717, PEOPLES R CHINA [title_en] => Study on the synthesis, structure and liquid crystalline of a new photochromic liquid crystalline dendrimer containing four 4-butoxyazobenzene mesogenic groups in its periphery [format_publication_en] => 169b60c7845c9e5f36906950b18f11111348184734 [jl_language] => chinese [jl_publication_cn] => 化学学报 [jl_article_dt] => 期刊论文 [jl_publication_en] => actachimicasinica [jl_country] => 中国,纳米比亚,瑞士,印度 [jl_keyword_en] => nematic,photochromicliquidcrystallinedendrimer,enthalpyandentropy,phasetransition [jl_keyword_cn] => 光致变色液晶树状物,相变焓,相变熵,向列相 [jl_clc] => tq460 [jl_publisher] => sciencechinapress [company_id] => 133,5,43,169 [sys_subject_sort] => 0,0,0,0 [college_parent_id] => 133,5,43,169 [company_test] => Array,Array,Array,Array [author_id] => [author_test] => Array ( [0] => Array ( [sure] => 0 [irmagnum] => 0 [u_index] => 0 [name] => 刘建强 [irtag] => 7 [t_index] => 0 [person_id] => 22294 ) ) [sys_author_id_arr] => 22294刘建强 [cscd_No] => CSCD:1612569 [jl_publication_cn_publication_en] => 化学学报,actachimicasinica [jl_keyword_cn_keyword_en] => 相变焓,nematic,相变熵,phasetransition,photochromicliquidcrystallinedendrimer,enthalpyandentropy,向列相,光致变色液晶树状物 [sys_author_id] => [format_cscd_No] => a16530c4d3af2a150e1b5c56e54c034e [format_title_en_publication_en_pub_year] => b591e7bba63521cf5e34365c3aa62cce [format_wos_No] => cf218866158ef12e44c05f93cf0d7859 [format_title_en_issn_pub_year] => ebf50696b0b49716524983cde95e37ca [format_scopus_No] => c35b3552077a2d645ed33b66fda3db8a [standard_in] => School of Chemistry and Chemical Engineering, Shandong University, Jinan 250100, China; School of Physics and Microelectronics, Shandong University, Jinan 250100, China [cauthor] => Zhang, QZ(qzzhang@sdu.edu.cn) [datebase] => Scopus [cite_scopus] => 4 [sys_priority_field] => 76 [scopus_No] => 2-s2.0-18444364687 [jl_pub_year] => 2004 [jl_author_test] => upersonid22294,usureu0,uuindex0,utindex0,uirtag7,uirmagnum0,unameuu5218u5efau5f3a [sys_author_jg_last_arr] => 中国 [jl_company_test] => unameuu5316u5b66u4e0eu5316u5de5u5b66u9662,uorgidu5,uparentidu43,unameuu7269u7406u5b66u9662,uircu0,uorgidu43,ulevelu1,uparentidu5 [sys_author_in_last_arr] => china [id] => zA1FvmUBFjIhTVEbZaRs [tags] => 0 ) [18] => Array ( [batch2] => 1,2,6 [batch] => 3249,3250,3252,3254,3243,3241 [tag] => 0 [abstract_cn] => 用非均相共沉淀法合成了系列Zn Al类水滑石 (HTlc)样品 ,研究发现Al/(Zn +Al)摩尔比 (x)在 0 3 1~ 0 5 2范围内可得到纯类水滑石相 .用电势滴定法和显微电泳法分别测定了 5个纯Zn AlHTlc样品的零净电荷点 (PZNC)和等电点 (IEP) ,以考察结构电荷对PZNC和IEP的影响 .研究发现随结构正电荷密度的增加 ,PZNC和IEP均降低 ;IEP高于PZNC ,且随结构正电荷密度的降低 ,IEP与PZNC的差值也降低 ,表明IEP与PZNC的差异来自结构电荷的影响 .结构正电荷对HTlc的IEP与PZNC相对大小的影响与高价阳离子特性吸附的影响一致 ... [keyword_cn] => 类水滑石;层状双金属氢氧化物;等电点;零净电荷点;电势滴定 [article_id] => 249101,490086,663383,620419,82205,330456 [clc] => O657.2 [author_jg] => [李丽芳] 山东大学, 胶体与界面化学教育部重点实验室, 济南, 山东 250100, 中国.@@@[侯万国] 山东大学, 胶体与界面化学教育部重点实验室, 济南, 山东 250100, 中国.@@@[戴肖南] 山东大学, 胶体与界面化学教育部重点实验室, 济南, 山东 250100, 中国.@@@[刘春霞] 山东大学, 胶体与界面化学教育部重点实验室, 济南, 山东 250100, 中国 [format_title_cn_publication_cn_pub_year] => b2ffc3c18e94fe69a82bfe5389dd26c4-32016726 [hints] => 4 [issue] => 4 [sys_level_num] => 2_3 [sys_jg_type] => 3,5 [format_issn_issue_page_pub_year] => d611381403e6047e02ec0aeafff5b8fe-796347967 [source_type] => 351 [pub_year] => 2004 [pub_date] => FEB 28 [pages] => 4 [from_id] => 76,75,73,80,78,85 [author_cn] => 李丽芳,侯万国,戴肖南,刘春霞 [issn] => 0567-7351 [uri] => https://www.scopus.com/inward/record.uri?eid=2-s2.0-33747599517&partnerID=40&md5=71f8e241194b6b677ffb314c6de8364a [publication_cn] => 化学学报 [title_cn] => Zn-Al类水滑石零净电荷点及等电点研究 [CSSN] => 31-1320/O6 [SYS_TAG] => 3 [format_title_cn_issn_pub_year] => 5b5309256b748591acc6ba7a95e679df-931611947 [page] => 429-432+343 [hb_type] => 2 [article_dt] => Article [hb_batch] => title_cn_publication_cn_pub_year_2_3 [publication_en] => ACTA CHIMICA SINICA [cite_wos] => 5 [fund_No] => 国家自然科学基金; 教育部跨世纪人才基金资助项目 [check_3Y] => 2 [language] => Chinese [delivery_No] => 776GU [format_title] => 872cfc025fa63efb6b99cc04b5b8768f-957699110 [cauthor_ad] => [Li, LF]Shandong Univ, Key Lab Colloid & Interface Chem, Jinan 250100, Peoples R China. [author_fn] => Li, LF; Hou, WG; Dai, XN; Liu, CX [reference] => Cavani F, 1991, CATAL TODAY, V11, P173, DOI 10.1016/0920-5861(91)80068-K@@@Han SH, 1997, CHINESE J CHEM, V15, P304@@@Hou W.G., 2001, LANGMUIR, V17, P1885@@@James R. O., 1982, SURF COLLOID SCI, V12, P119@@@[姜鹏 Jiang Peng], 2002, [高等学校化学学报, Chemical Journal of Chinese@@@Universities], V23, P78@@@Kraepiel AML, 1998, ENVIRON SCI TECHNOL, V32, P2829, DOI@@@10.1021/es9802899@@@Li SP, 2003, J COLLOID INTERF SCI, V257, P244, DOI@@@10.1016/S0021-9797(02)00062-0@@@Li SP, 2002, CHINESE CHEM LETT, V13, P781@@@PARKS GA, 1965, CHEM REV, V65, P177, DOI 10.1021/cr60234a002@@@Shojai F, 2000, CERAM INT, V26, P133, DOI 10.1016/S0272-8842(99)00030-9@@@@@@Sposito G, 1998, ENVIRON SCI TECHNOL, V32, P2815, DOI 10.1021/es9802347@@@SPRYCHA R, 1984, J COLLOID INTERF SCI, V102, P173, DOI@@@10.1016/0021-9797(84)90211-X@@@@@@YOON RH, 1979, J COLLOID INTERF SCI, V70, P483, DOI@@@10.1016/0021-9797(79)90056-0@@@侯万国, 1998, 化学学报, V56, P514 [publication_29] => ACTA CHIM SINICA [end_page] => 432 [abstract_en] => A series of Zn-Al hydrotalcite-like compounds (HTlc) was synthesized by co-precipitation method. The structure and chemical composition of the samples were determined by X-ray powder diffraction and automatic X-ray fluorescent spectrometric analysis, respectively. The results showed that pure HTlc could be obtained in the range of 0.31 less than or equal to x less than or equal to 0.52 [x = n(Al)/n(Zn+ Al)]. The point of zero net charge (PZNC] and isoelectric point (IEP) of pure Zn-Al HTlc were measured using potentiometric titration method and electrophoretic method, respectively. The results indicated that permanent charge led to shifts in the PZNC and IEP of HTlc samples, and this influence was just the same as that of the cations adsorption on HTlc samples. PZNC and EEP all decreased with x or permanent charge density increasing, and EEP values were higher than PZNC values for all samples. The difference value (IEP-PZNQ increased as x value increased, indicating that the difference came from the structure charge of HTlc samples. [author_in] => [Li, L.-F] Key Laboratory of Colloid and Interface Chemistry, Shandong University, Jinan 250100, China, College of Applied Chemistry and Material Science, Shandong Agriculture University, Tai\'an 271018, China@@@[ Hou, W.-G] Key Laboratory of Colloid and Interface Chemistry, Shandong University, Jinan 250100, China@@@[ Dai, X.-N] Key Laboratory of Colloid and Interface Chemistry, Shandong University, Jinan 250100, China@@@[ Liu, C.-X] Key Laboratory of Colloid and Interface Chemistry, Shandong University, Jinan 250100, China [publication_type] => J [begin_page] => 429 [author_en] => Li, LF; Hou, WG; Dai, XN; Liu, CX [volume] => 62 [get_data] => 2018-08-29 [publisher] => SCIENCE CHINA PRESS [keyword_en] => hydrotalcite-like compound; layered double hydroxide; isoelectric point;; the point of zero net charge; potentiometric titration [format_publication_cn] => 6918be3b26b1fa6ec0424f6071208a75331227575 [keyword_plu] => HYDROXIDES; INTERFACE; SURFACE; OXIDES [publication_iso] => Acta Chim. Sin. [format_title_en] => fbbbb62741f89877d96836f3db4c0bde1148656553 [publisher_city] => BEIJING [hx_id] => 2377,2378,2371 [reference_No] => 14 [email] => wghou@sdu.edu.cn [cite_awos] => 8 [wos_No] => WOS:000189108900017 [wos_sub] => Chemistry, Multidisciplinary [research_area] => Chemistry [check_180] => 0 [publisher_ad] => 16 DONGHUANGCHENGGEN NORTH ST, BEIJING 100717, PEOPLES R CHINA [title_en] => Studies of the point of zero net charge and isoelectric point of Zn-Al hydrotalcite-like compounds [format_publication_en] => 169b60c7845c9e5f36906950b18f11111348184734 [jl_language] => chinese [jl_publication_cn] => 化学学报 [jl_article_dt] => 期刊论文 [jl_publication_en] => actachimicasinica [jl_country] => 中国,中国 [jl_keyword_en] => ,potentiometrictitration,hydrotalcitelikecompound,layereddoublehydroxide,isoelectricpoint,thepointofzeronetcharge [jl_keyword_cn] => 层状双金属氢氧化物,类水滑石,电势滴定,等电点,零净电荷点 [jl_clc] => o6572 [jl_publisher] => sciencechinapress [company_id] => [author_id] => 21153 [author_test] => Array ( [0] => Array ( [sure] => 0 [irmagnum] => 0 [u_index] => 0 [name] => 侯万国 [irtag] => 7 [t_index] => 0 [person_id] => 21153 ) ) [sys_author_id_arr] => 21153侯万国 [cscd_No] => CSCD:1614035 [jl_publication_cn_publication_en] => actachimicasinica,化学学报 [jl_keyword_cn_keyword_en] => isoelectricpoint,电势滴定,hydrotalcitelikecompound,potentiometrictitration,类水滑石,layereddoublehydroxide,等电点,thepointofzeronetcharge,零净电荷点,层状双金属氢氧化物 [sys_author_id] => 21153 [format_cscd_No] => 4ee3b71d7b0132626dd94a3cfed493f7923573371 [format_title_en_publication_en_pub_year] => 20c42174f5acaf504a19f02daa4a8f531419369599 [format_wos_No] => 4a13bdd2989c35a9967fe96e12fa6f45-358580627 [format_title_en_issn_pub_year] => 892247e677c92bcc53d0a32d18bdbfec-1194214206 [datebase] => Scopus [format_scopus_No] => 856e88ca8c6225ce6f1ee91b18c555331800071739 [cite_scopus] => 6 [sys_priority_field] => 76 [standard_in] => Key Laboratory of Colloid and Interface Chemistry, Shandong University, Jinan 250100, China; College of Applied Chemistry and Material Science, Shandong Agriculture University, Tai\'an 271018, China [scopus_No] => 2-s2.0-33747599517 [id] => Dg1GvmUBFjIhTVEbF9Bp [tags] => 0 ) [19] => Array ( [batch2] => 1,2,6 [batch] => 3249,3250,3241,3254,3243,3252 [tag] => 0 [abstract_cn] => 通过在正十二硫醇自组装单层膜表面制备环氧树脂涂层的方法,在涂层/铜基体界面引入自组装界面层.采用X射线光电子能谱、电化学阻抗谱、阻抗-时间谱和相位角-时间谱等方法对硫醇自组装界面层及其对涂层腐蚀防护性能的影响进行了研究.结果表明,引入的自组装单层可极大地改善涂层的腐蚀防护性能.论文还对自组装单层改善涂层腐蚀防护性能的机理进行了探讨. [keyword_cn] => 正十二硫醇;自组装单层膜;环氧树脂涂层;腐蚀防护性能; [clc] => TG174.46 [author_jg] => [孔燕] 山东大学化学与化工学院, 济南, 山东 250100, 中国.@@@[张树永] 山东大学化学与化工学院, 济南, 山东 250100, 中国.@@@[李红娟] 山东大学化学与化工学院, 济南, 山东 250100, 中国 [format_title_cn_publication_cn_pub_year] => a997f651c4285905487b1d165c24ad24-1319116939 [from_id] => 76,75,73,80,78,85 [issue] => 17 [sys_level_num] => 2_1 [sys_jg_type] => 5 [source_type] => 351 [pub_year] => 2004 [article_id] => 663308,45673,237896,490036,581871,329267 [pages] => 5 [hints] => 6 [author_cn] => 孔燕[1];张树永[1];李红娟[1] [issn] => 0567-7351 [uri] => https://www.scopus.com/inward/record.uri?eid=2-s2.0-33750392134&partnerID=40&md5=8339f0b014f9996c1215671490743a03 [publication_cn] => 化学学报 [title_cn] => 正十二硫醇自组装单层膜改善环氧涂层腐蚀防护性能的研究 [CSSN] => 31-1320/O6 [SYS_TAG] => 3 [format_title_cn_issn_pub_year] => dd6daf4b374fc23068887d1eb7967b81-1070534332 [hb_type] => 2 [hb_batch] => title_cn_publication_cn_pub_year_2_3 [publication_en] => ACTA CHIMICA SINICA [cite_wos] => 2 [fund_No] => 国家自然科学基金 [check_3Y] => 6 [language] => Chinese [delivery_No] => 853OD [format_title] => b983e3dcacb336829a53c45de37af8ce25625036 [cauthor_ad] => [Kong, Y]Shandong Univ, Sch Chem & Chem Engn, Jinan 250100, Peoples R China. [author_fn] => Kong, Y; Zhang, SY; Li, HJ [reference] => ARIMA M, 1993, REPT PROG POLYM PHYS, V36, P267@@@Chung C, 1999, J ELECTROANAL CHEM, V468, P91, DOI@@@10.1016/S0022-0728(99)00072-8@@@@@@LEE MC, 1993, PROG POLYM SCI, V18, P947@@@Luo XW, 1997, J MACROMOL SCI PURE, VA34, P2279, DOI@@@10.1080/10601329708010047@@@@@@LUO XW, 1995, MACROMOL RAPID COMM, V16, P941, DOI@@@10.1002/marc.1995.030161210@@@@@@MANSFELD F, 1995, J APPL ELECTROCHEM, V25, P187@@@NAKAMURA S, 1993, J THERM ANAL, V40, P613, DOI 10.1007/BF02546631@@@@@@Quan ZL, 2001, CORROS SCI, V43, P1071, DOI 10.1016/S0010-938X(00)00131-1@@@Schmidt R G, 1986, Advance in Polymer Science, Epoxy Resins and@@@COmposites II, P33@@@Ulman A, 1996, CHEM REV, V96, P1533, DOI 10.1021/cr9502357@@@Van Westing E P M, 1994, Corros. Sci., V36, P979@@@Van Westing E P M, 1993, Prog. Org. Coat, V23, P89@@@Zhang SY, 2003, J APPL ELECTROCHEM, V33, P1063, DOI@@@10.1023/A:1026277017947@@@张树永, 1999, 化学学报, V57, P329@@@Zhang SY, 2002, CORROS SCI, V44, P861, DOI 10.1016/S0010-938X(01)00091-9@@@Zhang SY, 1998, J APPL ELECTROCHEM, V28, P1277, DOI@@@10.1023/A:1003430821885@@@@@@Zhang SY, 2000, CORROS SCI, V42, P2037, DOI@@@10.1016/S0010-938X(00)00042-1@@@罗小雯, 1997, 高等学校化学学报, V18, P1719@@@陈月辉, 1995, 化学学报, V53, P328@@@张树永, 1997, 化学通, P31@@@2002, 电化学阻抗谱导论, P154 [publication_29] => ACTA CHIM SINICA [end_page] => 1616 [abstract_en] => By formation of epoxy coating on n-dodecanethiol self-assembled monolayer on copper substrate, self-assembled monolayer was introduced between epoxy coating and copper electrode. The formation of self-assembled interfacial n-dodecanethiol monolayer and its effect on the corrosion protection of epoxy coating were evaluated using the X-ray photoelectronic spectroscopy, electrochemical impedance spectroscopy, impedance-time transition, and phase angle-time transition method. It was found that, the self-assembled interfacial monolayer can improve the corrosion protection of the epoxy coating greatly. The mechanism for the great improvement was discussed. [author_in] => [Kong, Y] School of Chemistry and Chemical Engineering, Shandong University, Jinan 250100, China@@@[ Zhang, S.-Y] School of Chemistry and Chemical Engineering, Shandong University, Jinan 250100, China@@@[ Li, H.-J] School of Chemistry and Chemical Engineering, Shandong University, Jinan 250100, China [publication_type] => J [begin_page] => 1612 [article_dt] => Article [author_en] => Kong, Y; Zhang, SY; Li, HJ [volume] => 62 [get_data] => 2018-08-29 [publisher] => SCIENCE CHINA PRESS [keyword_en] => polymeric coating; corrosion protection; mechanism; coating/metal; interface; self-assembled monolayer [format_publication_cn] => 6918be3b26b1fa6ec0424f6071208a75331227575 [keyword_plu] => ELECTROCHEMICAL IMPEDANCE SPECTROSCOPY; IN-SITU DETERMINATION; CRESOL NOVOLAC RESIN; WATER SORPTION; MECHANISM; ADHESION; KINETICS [publication_iso] => Acta Chim. Sin. [format_title_en] => 2fbdd6922a5ae39b5e2bb28f8f39e0d0-1393409520 [publisher_city] => BEIJING [pub_date] => SEP 14 [hx_id] => 2377,2378,2371 [reference_No] => 21 [email] => syzhang@sdu.edu.cn [cite_awos] => 4 [wos_No] => WOS:000223836000007 [wos_sub] => Chemistry, Multidisciplinary [research_area] => Chemistry [check_180] => 0 [publisher_ad] => 16 DONGHUANGCHENGGEN NORTH ST, BEIJING 100717, PEOPLES R CHINA [title_en] => Study of the effect of n-dodecanethiol self-assembled monolayer on the improvement of corrosion protection of epoxy coating [format_publication_en] => 169b60c7845c9e5f36906950b18f11111348184734 [jl_language] => chinese [jl_publication_cn] => 化学学报 [jl_article_dt] => 期刊论文 [jl_publication_en] => actachimicasinica [jl_country] => 中国,中国 [jl_keyword_en] => selfassembledmonolayer,corrosionprotection,coatingmetal,mechanism,interface,polymericcoating [jl_keyword_cn] => 自组装单层膜,环氧树脂涂层,正十二硫醇,,腐蚀防护性能 [jl_clc] => tg17446 [jl_publisher] => sciencechinapress [company_id] => 43,169 [sys_subject_sort] => 0,0 [college_parent_id] => 43,169 [company_test] => Array,Array [author_id] => [author_test] => Array ( [0] => Array ( [sure] => 0 [irmagnum] => 0 [u_index] => 0 [name] => 张树永 [irtag] => 7 [t_index] => 0 [person_id] => 25639 ) ) [sys_author_id_arr] => [cscd_No] => CSCD:1699852 [jl_publication_cn_publication_en] => actachimicasinica,化学学报 [jl_keyword_cn_keyword_en] => 自组装单层膜,selfassembledmonolayer,正十二硫醇,环氧树脂涂层,corrosionprotection,mechanism,interface,腐蚀防护性能,polymericcoating,coatingmetal [sys_author_id] => [format_cscd_No] => b4f60b985a6b1b3e67f39162a2344cdf859532538 [format_title_en_publication_en_pub_year] => 8fdf967c5d8931db576a9a9f918da544-674836496 [format_wos_No] => 3af081030c242b407afc493248b31c16615829180 [format_title_en_issn_pub_year] => c20a6209a8956fba50ad7d79a8a52fcf-743973472 [format_scopus_No] => b98a42963c3caaed4b821f28e910c9f0-819385389 [standard_in] => School of Chemistry and Chemical Engineering, Shandong University, Jinan 250100, China [datebase] => Scopus [page] => 1612-1616 [cite_scopus] => 3 [format_issn_issue_page_pub_year] => 63d0da60f84eb2dc6eb5fb957d46caee-1202750252 [sys_priority_field] => 76 [scopus_No] => 2-s2.0-33750392134 [id] => UwoyvmUBFjIhTVEbeVMR [tags] => 0 ) ) 1-->
81. 偏分势能面及其应用(Ⅰ):概念、构造方法及几个简例 CSCD SCOPUS SCIE

作者:孙孝敏;王华阳;蔡政亭;冯大诚;边文生

作者机构:[孙孝敏] 山东大学理论化学研究所, 济南, 山东 250100, 中国.;[王华阳] 山东大学理论化学研究所, 济南, 山东 250100, 中国.;[蔡政亭] 山东大学理论化学研究所, 济南, 山东 250100, 中国.;[冯大诚] 山东大学理论化学研究所, 济南, 山东 250100, 中国.;[边文生] 中国科学院化学研究所, 分子反应动力学国家重点实验室, 北京 100080, 中国

来源:化学学报,ACTA CHIMICA SINICA,2005,Vol.63,Issue.5,372-376

WOS被引数:5

资源类型:期刊论文

WOS:000227653400005

82. 季铵化聚4-乙烯吡啶衍生物与葫芦脲[6]的超分子自组装及性质研究 CSCD SCOPUS SCIE

作者:侯昭升,谭业邦,黄玉玲,周其凤

作者机构:[侯昭升] 山东大学化学与化工学院, 济南, 山东 250100, 中国.;[谭业邦] 山东大学化学与化工学院, 济南, 山东 250100, 中国.;[黄玉玲] 山东大学化学与化工学院, 济南, 山东 250100, 中国.;[周其凤] 北京大学化学与分子工程学院, 北京 100871, 中国

来源:化学学报,ACTA CHIMICA SINICA,2005,Vol.63,Issue.7,653-657+557

WOS被引数:3

资源类型:会议论文;期刊论文

WOS:000228194300018

83. 氧化腈与丙炔1,3-偶极环加成反应中区域选择性的理论研究 CSCD SCOPUS SCIE

作者:张月梅,王若曦,徐为人,刘成卜

作者机构:[张月梅] 山东大学理论化学研究所, 济南, 山东 250100, 中国.;[王若曦] 山东大学理论化学研究所, 济南, 山东 250100, 中国.;[刘成卜] 山东大学理论化学研究所, 济南, 山东 250100, 中国.;[徐为人] 天津药物研究院, 天津药代动力学与药效动力学省部共建国家重点实验室, 天津 300193, 中国

来源:化学学报,ACTA CHIMICA SINICA,2005,Vol.63,Issue.7,567-571+553

WOS被引数:3

资源类型:期刊论文

WOS:000228194300003

84. 直链醇对反胶束体系中木素过氧化物酶催化活性的影响 CSCD SCOPUS SCIE

作者:张文娟[1];王丹[1];黄锡荣[1,2];曲音波[2];高培基[2]

作者机构:[张文娟] 山东大学, 胶体与界面化学教育部重点实验室,中国.;[王丹] 山东大学, 胶体与界面化学教育部重点实验室,中国.;[黄锡荣] 山东大学, 胶体与界面化学教育部重点实验室,中国.;[曲音波] 山东大学, 微生物技术国家重点实验室, 济南, 山东 250100, 中国.;[高培基] 山东大学, 微生物技术国家重点实验室, 济南, 山东 250100, 中国

来源:化学学报,ACTA CHIMICA SINICA,2005,Vol.63,Issue.21,79-82+8

WOS被引数:2

资源类型:期刊论文

WOS:000233209500012

85. 水热法合成立方氮化硼微晶 CSCD SCOPUS SCIE

作者:于美燕;崔得良;李凯;尹衍升;初蕾

作者机构:[于美燕] 中国海洋大学材料科学与工程研究院, 青岛, 山东 266003, 中国.;[尹衍升] 中国海洋大学材料科学与工程研究院, 青岛, 山东 266003, 中国.;[初蕾] 中国海洋大学材料科学与工程研究院, 青岛, 山东 266003, 中国.;[崔得良] 山东大学晶体材料研究所, 济南, 山东 250100, 中国.;[李凯] 山东大学晶体材料研究所, 济南, 山东 250100, 中国

来源:化学学报,ACTA CHIMICA SINICA,2005,Vol.63,Issue.10,909-912+870

WOS被引数:1

资源类型:期刊论文

WOS:000229327000007

86. V形咔唑衍生物的合成及荧光性质 CSCD SCOPUS SCIE

作者:王伟,方奇,刘志强,曹笃霞,邓敏智

作者机构:[王伟] 山东大学, 晶体材料国家重点实验室, 济南, 山东 250100, 中国.;[方奇] 山东大学, 晶体材料国家重点实验室, 济南, 山东 250100, 中国.;[刘志强] 山东大学, 晶体材料国家重点实验室, 济南, 山东 250100, 中国.;[曹笃霞] 济南大学材料科学与工程学院, 济南, 山东 250022, 中国.;[邓敏智] 中国科学院上海有机化学研究所, 中科院有机氟化学重点实验室, 上海 200032, 中国

来源:化学学报,ACTA CHIMICA SINICA,2005,Vol.63,Issue.14,1323-1328+1242

WOS被引数:10

资源类型:期刊论文

WOS:000230857100014

87. 水和辛胺对ZnO多孔纳米块体孔道结构的影响 CSCD SCOPUS SCIE

作者:李梅,刘秀琳,徐红燕,崔得良,任燕,孙海燕,陶绪堂,蒋民华

作者机构:[李梅] 山东大学, 晶体材料国家重点实验室, 济南, 山东 250100, 中国.;[刘秀琳] 山东大学, 晶体材料国家重点实验室, 济南, 山东 250100, 中国.;[徐红燕] 山东大学, 晶体材料国家重点实验室, 济南, 山东 250100, 中国.;[崔得良] 山东大学, 晶体材料国家重点实验室, 济南, 山东 250100, 中国.;[任燕] 山东大学, 晶体材料国家重点实验室, 济南, 山东 250100, 中国.;[孙海燕] 山东大学, 晶体材料国家重点实验室, 济南, 山东 250100, 中国.;[陶绪堂] 山东大学, 晶体材料国家重点实验室, 济南, 山东 250100, 中国.;[蒋民华] 山东大学, 晶体材料国家重点实验室, 济南, 山东 250100, 中国

来源:化学学报,ACTA CHIMICA SINICA,2005,Vol.63,Issue.16,1510-1514+1467

WOS被引数:1

资源类型:期刊论文

WOS:000231409000009

88. 三代碳硅烷光致变色液晶树状物的光化学研究——端基含108个4-丁氧基偶氮苯介晶基元 CSCD SCOPUS SCIE

作者:张其震,殷晓颖,王艳

作者机构:[张其震] 山东大学化学化工学院, 济南, 山东 250100, 中国.;[殷晓颖] 山东大学化学化工学院, 济南, 山东 250100, 中国.;[王艳] 山东大学环境科学与工程学院, 济南, 山东 250100, 中国

来源:化学学报,ACTA CHIMICA SINICA,2005,Vol.63,Issue.10,941-946+872

WOS被引数:2

资源类型:期刊论文

WOS:000229327000013

89. 银纳米粒子表面油酸盐吸附的分子模拟 CSCD SCOPUS SCIE

作者:杨春杰;陈晓;赵继宽;刘成卜

作者机构:[杨春杰] 山东大学, 胶体与界面化学教育部重点实验室, 济南, 山东 250100, 中国.;[陈晓] 山东大学, 胶体与界面化学教育部重点实验室, 济南, 山东 250100, 中国.;[赵继宽] 山东大学, 胶体与界面化学教育部重点实验室, 济南, 山东 250100, 中国.;[刘成卜] 山东大学理论化学研究所, 济南, 山东 250100, 中国

来源:化学学报,ACTA CHIMICA SINICA,2005,Vol.63,Issue.8,769-773+669

WOS被引数:3

资源类型:期刊论文

WOS:000228513700019

90. 蔗糖对MO/水立方液晶体系流变性质的影响 CSCD SCOPUS SCIE

作者:王志宁,郑利强,李干佐

作者机构:[王志宁] 山东大学, 胶体与界面化学教育部重点实验室, 济南, 山东 250100, 中国.;[郑利强] 山东大学, 胶体与界面化学教育部重点实验室, 济南, 山东 250100, 中国.;[李干佐] 山东大学, 胶体与界面化学教育部重点实验室, 济南, 山东 250100, 中国

来源:化学学报,ACTA CHIMICA SINICA,2005,Vol.63,Issue.4,274-278+255

WOS被引数:6

资源类型:期刊论文

WOS:000227223500004

91. 聚合氯化铝中Al_(13)形态的分离纯化方法及特性 CSCD SCOPUS SCIE

作者:高宝玉,孔春燕,岳钦艳,王晓娜,初永宝,王曙光

作者机构:[高宝玉] 山东大学环境科学与工程学院, 济南, 山东 250100, 中国.;[岳钦艳] 山东大学环境科学与工程学院, 济南, 山东 250100, 中国.;[王晓娜] 山东大学环境科学与工程学院, 济南, 山东 250100, 中国.;[初永宝] 山东大学环境科学与工程学院, 济南, 山东 250100, 中国.;[王曙光] 山东大学环境科学与工程学院, 济南, 山东 250100, 中国.;[孔春燕] 德州学院化学系, 德州, 山东 253023, 中国

来源:化学学报,ACTA CHIMICA SINICA,2005,Vol.63,Issue.18,1671-1675+1636

WOS被引数:1

资源类型:期刊论文

WOS:000232089800007

92. 钛酸铋系化合物的光催化性能研究 CSCD SCOPUS SCIE

作者:许效红;姚伟峰;张寅;周爱秋;侯云;王民

作者机构:[许效红] 山东大学,化学与化工学院, 济南, 山东 250100, 中国.;[周爱秋] 山东大学,化学与化工学院, 济南, 山东 250100, 中国.;[姚伟峰] 山东大学, 晶体材料国家重点实验室, 济南, 山东 250100, 中国.;[张寅] 山东大学, 晶体材料国家重点实验室, 济南, 山东 250100, 中国.;[侯云] 山东大学, 晶体材料国家重点实验室, 济南, 山东 250100, 中国.;[王民] 山东大学, 晶体材料国家重点实验室, 济南, 山东 250100, 中国

来源:化学学报,ACTA CHIMICA SINICA,2005,Vol.63,Issue.1,5-10+91

WOS被引数:20

资源类型:期刊论文

WOS:000226363200002

93. 支型长链均三嗪衍生物的合成与光谱性质 CSCD SCOPUS SCIE

作者:尹磊;方奇;崔月芝

作者机构:[尹磊] 山东大学, 晶体材料国家重点实验室, 济南, 山东 250100, 中国.;[方奇] 山东大学, 晶体材料国家重点实验室, 济南, 山东 250100, 中国.;[崔月芝] 山东轻工业学院化工系, 济南, 山东 250100, 中国

来源:化学学报,ACTA CHIMICA SINICA,2005,Vol.63,Issue.23,85-90

资源类型:期刊论文

WOS:000233813100015

94. 一代碳硅烷树枝状大分子钯配合物的液晶性 CSCD SCOPUS SCIE

作者:张其震;殷晓颖;李爱香;王艳

作者机构:[张其震] 山东大学化学化工学院,中国.;[殷晓颖] 山东大学化学化工学院,中国.;[杨爱香] 山东大学化学化工学院,中国.;[王艳] 山东大学环境与工程学院, 济南, 山东 250100, 中国

来源:化学学报,ACTA CHIMICA SINICA,2005,Vol.63,Issue.10,934-940+871

WOS被引数:5

资源类型:期刊论文

WOS:000229327000012

95. 多支结构的均三嗪衍生物的合成及双光子吸收性质 CSCD SCOPUS SCIE

作者:崔月芝;方奇;薛刚;许贵宝;于文涛;尹磊

作者机构:[崔月芝] 山东轻工业学院化工系, 济南, 山东 250100, 中国.;[方奇] 山东轻工业学院化工系, 济南, 山东 250100, 中国.;[薛刚] 山东大学, 晶体材料国家重点实验室, 济南, 山东 250100, 中国.;[许贵宝] 山东大学, 晶体材料国家重点实验室, 济南, 山东 250100, 中国.;[于文涛] 山东大学, 晶体材料国家重点实验室, 济南, 山东 250100, 中国.;[尹磊] 山东大学, 晶体材料国家重点实验室, 济南, 山东 250100, 中国

来源:化学学报,ACTA CHIMICA SINICA,2005,Vol.63,Issue.15,50-57

WOS被引数:8

资源类型:期刊论文

WOS:000231163200008

96. 两个具有强双光子荧光的有机硼化合物 CSCD SCOPUS SCIE

作者:曹笃霞;刘志强;王东;方奇

作者机构:[曹笃霞] 山东大学, 晶体材料国家重点实验室, 济南, 山东 250100, 中国.;[刘志强] 山东大学, 晶体材料国家重点实验室, 济南, 山东 250100, 中国.;[王东] 山东大学, 晶体材料国家重点实验室, 济南, 山东 250100, 中国.;[方奇] 山东大学, 晶体材料国家重点实验室, 济南, 山东 250100, 中国

来源:化学学报,ACTA CHIMICA SINICA,2005,Vol.63,Issue.15,44-49

WOS被引数:3

资源类型:期刊论文

WOS:000231163200007

97. 离子对生成反应Li+I2→Li^++I2^-的理论研究:从头算势能面和反应几率 CSCD SCOPUS SCIE

作者:孙孝敏 [1];张君 [1];冯大诚 [1];蔡政亭 [1];边文生 [2]

作者机构:[孙孝敏 ;张君 ;冯大诚 ;蔡政亭 ]山东大学理论化学研究所,济南,250100,中国.;[边文生 ]中国科学院化学研究所分子反应动力学国家重点实验室,北京,100080,中国

来源:化学学报,ACTA CHIMICA SINICA,2004,Vol.62,Issue.16,1477-1483

资源类型:期刊论文

WOS:000223627900005

98. 端基含4个丁氧基苯介晶基元光致变色液晶树状物的合成、结构及液晶性研究 CSCD SCOPUS SCIE

作者:张其震,刘建强,李爱香,张静智

作者机构:[张其震] 山东大学化学与化工学院, 济南, 山东 250100, 中国.;[刘建强] 山东大学化学与化工学院, 济南, 山东 250100, 中国.;[李爱香] 山东大学化学与化工学院, 济南, 山东 250100, 中国.;[张静智] 山东大学化学与化工学院, 济南, 山东 250100, 中国

来源:化学学报,ACTA CHIMICA SINICA,2004,Vol.62,Issue.3,312-316

WOS被引数:4

资源类型:期刊论文

WOS:000188877700015

99. Zn-Al类水滑石零净电荷点及等电点研究 CSCD SCOPUS SCIE

作者:李丽芳,侯万国,戴肖南,刘春霞

作者机构:[李丽芳] 山东大学, 胶体与界面化学教育部重点实验室, 济南, 山东 250100, 中国.;[侯万国] 山东大学, 胶体与界面化学教育部重点实验室, 济南, 山东 250100, 中国.;[戴肖南] 山东大学, 胶体与界面化学教育部重点实验室, 济南, 山东 250100, 中国.;[刘春霞] 山东大学, 胶体与界面化学教育部重点实验室, 济南, 山东 250100, 中国

来源:化学学报,ACTA CHIMICA SINICA,2004,Vol.62,Issue.4,429-432+343

WOS被引数:5

资源类型:期刊论文

WOS:000189108900017

100. 正十二硫醇自组装单层膜改善环氧涂层腐蚀防护性能的研究 CSCD SCOPUS SCIE

作者:孔燕[1];张树永[1];李红娟[1]

作者机构:[孔燕] 山东大学化学与化工学院, 济南, 山东 250100, 中国.;[张树永] 山东大学化学与化工学院, 济南, 山东 250100, 中国.;[李红娟] 山东大学化学与化工学院, 济南, 山东 250100, 中国

来源:化学学报,ACTA CHIMICA SINICA,2004,Vol.62,Issue.17,1612-1616

WOS被引数:2

资源类型:期刊论文

WOS:000223836000007

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