首页 | 本学科首页   官方微博 | 高级检索  
文章检索
  按 检索   检索词:      
出版年份:   被引次数:   他引次数: 提示:输入*表示无穷大
  收费全文   32787篇
  免费   941篇
  国内免费   249篇
化学   22673篇
晶体学   223篇
力学   768篇
数学   5420篇
物理学   4893篇
  2022年   283篇
  2021年   421篇
  2020年   514篇
  2019年   484篇
  2018年   376篇
  2017年   372篇
  2016年   835篇
  2015年   737篇
  2014年   807篇
  2013年   1725篇
  2012年   1866篇
  2011年   2352篇
  2010年   1141篇
  2009年   1004篇
  2008年   2009篇
  2007年   2021篇
  2006年   1996篇
  2005年   1862篇
  2004年   1587篇
  2003年   1382篇
  2002年   1282篇
  2001年   402篇
  2000年   388篇
  1999年   358篇
  1998年   335篇
  1997年   357篇
  1996年   486篇
  1995年   343篇
  1994年   298篇
  1993年   270篇
  1992年   267篇
  1991年   237篇
  1990年   202篇
  1989年   203篇
  1988年   232篇
  1987年   198篇
  1986年   180篇
  1985年   347篇
  1984年   339篇
  1983年   242篇
  1982年   313篇
  1981年   323篇
  1980年   298篇
  1979年   281篇
  1978年   257篇
  1977年   227篇
  1976年   206篇
  1975年   208篇
  1974年   210篇
  1973年   209篇
排序方式: 共有10000条查询结果,搜索用时 0 毫秒
81.
The synthesis of complexes of the type π-C5H5Mo(CO)2LX and π-C5H5Mo(CO)L2X, where XCl, Br, or I and LP(OCH2)3CR (RCH3, C2H5, or C3H7), is reported. Infrared and conductance data verified that all compounds existed as covalent species in solution. Each of the three π-C5H5Mo(CO)2LCl complexes was isolated as an inseparable mixture of cis and trans isomeric forms. Only the trans forms of the remaining π-C5H5Mo(CO)2LX complexes were observed in solution, as indicated by infrared and PMR spectra. All of the π-C5H5Mo(CO)L2X compounds apparently exist in primarily one isomeric form in solution; their PMR spectra, which exhibited a sharp triplet resonance for the ?OCH2? protons of the phosphite ligands and a single sharp π-C5H5 proton signal, indicated a predominantly trans arrangement of the phosphite ligands at room temperature.  相似文献   
82.
Palladium[0]-mediated Ullmann cross-coupling of 1-bromo-2-nitrobenzene (1 R = H) and its derivatives with a range of beta-halo-enals, -enones, or -esters readily affords the corresponding beta-aryl derivatives, which are converted into the corresponding quinolines, 2-quinolones, phenanthridines, or 6(5H)-phenanthridinones on reaction with dihydrogen in the presence of Pd on C or with TiCl(3) in aqueous acetone. [reaction: see text]  相似文献   
83.
84.
Use of X-ray Photoelectron Spectroscopy (XPS) for quantitative surface analysis is reviewed. Examples chosen are from our research on heterogeneous catalysts. XPS is useful for measuring distributions of oxidation states because of significant chemical shifts for many elements. However, linewidths complicate analysis of mixtures, necessitating the use of data analysis methodology. Use of factor analysis or deconvolution with non-linear least squares curve fitting gives useful protocols. Five important questions are posed, and some examples of solutions are presented: 1) How many components are present? 2) Where are they located? 3) What do they look like? 4) How much of each component is present? 5) How good is the answer?  相似文献   
85.
Equilibrium gas-phase acidities of the six isomeric cyclohexanediols were measured in a Fourier transform ion cyclotron resonance mass spectrometer. Although all six cyclohexanediols have the same functional groups and similar structures, the acidities vary over 11 kcal/mol. This large difference is due mostly to the balance between hydrogen bonding and geometric strain. To understand the origins of the acidity differences in more detail, the conformations and energetics of the cyclohexanediols were studied using density functional theory, which gave good agreement with the experimental acidities. Finally, methanol-methoxide and methanol-methanol interactions were used as a model for the hydrogen bonding.  相似文献   
86.
The cyclization of (2-ethynylphenyl)triazenes in ODCB at 200 degrees C gives exclusively cinnolines, whereas addition of CuCl to 1,2-dichloroethane solutions of the triazenes at 50 degrees C results in the sole formation of isoindazoles. DFT calculations and deuterium labeling studies suggest the intermediacy of a 3-dehydrocinnolinium ion, produced through a pericyclic transition state. Calculations and trapping studies strongly implicate a carbene intermediate in isoindazole formation, which proceeds through a pseudocoarctate transition state.  相似文献   
87.
Evidence is presented demonstrating the existence of two paths to the title processes which arise from a common intermediate. A rationale involving catalyzed addition of the diazo compound to the olefin and carbenoid addition to the olefin is proposed. The penultimate intermediate has one new CC bond formed. It is partitioned between products by forming the second CC bond or formation of a hydrocarbenoid allyl complex which collapses to the allylic CH insertion products. Cyclopropanation occurs stereospecifically. The proposed mechanism accounts for the stereospecificity of cyclopropanation, the variance of syn/anti ratios with catalyst concentration when diazoacetic ester is employed and optical inductions with chiral catalysts. The question of whether the alleged carbenoid and/or the penultimate intermediate contain N2 is not answered although it is felt that a cupro-cyclobutane intermediate is the most probable intermediate before product partitioning.  相似文献   
88.
A kinetic study of anhydride formation in isotactic and atactic polymethacrylic acids (PMA) has been performed at about 200° using a vacuum thermobalance. The results obey first order kinetics and show that the rate of water loss is about four times higher for the isotactic PMA than for the atactic isomer. The activation energies are almost identical (42 ± 1 kcal per mole); it is concluded that the arrangement of neighbouring carboxyl groups is more favourable for the formation of a cyclic anhydride by intramolecular reaction in the case of the isotactic PMA.  相似文献   
89.
The origin of the [M–69]+ and [M–111]+ signals in the mass spectrum of taraxasterol was studied through the use of C(18), (19), (21), (22) and/or (30) deuteriated derivatives. The generality of these signals for ring systems with an exocyclic methylene group and a methyl moiety on an adjacent carbon was verified with 2-methylmethylenecyclohexane, 1-methyl-2-methylene-trans-decalin, 1,10-dimethyl-2-methylene-trans-decalin and some of their deuteriated derivatives. The most plausible mechanism for the formation of the [M–69]+ ion appears to involve cleavage of both bonds allylic to the exocyclic methylene group with a 1,3-hydrogen transfer from the adjacent ring. Genesis of the [M–111]+ ion is more complicated but a five-membered allylic ion generated from ring D is proposed.  相似文献   
90.
In order to explore the effect of H-to-D substitution on the zero-point energy (ZPE) of water clusters, Hessians were computed for a database of 53 optimized (H2O)n clusters, 5 < or = n < or = 21, at the B3LYP6-311 + + G** level. The 53 clusters contained 1524 protons, which were sorted into 18 categories according to the type of their donor O and (if not free) acceptor O. Letting deltaZPE[H]* denote the change in ZPE when the proton H* is replaced by D, mean values for deltaZPE[H*] for the H-bonded categories ranged from -2172 cal mol(-1) for H* in a DDAA-DDAA bond to -2118 for H* in a DAA-DDA bond. Mean value for H* free on DAA (respectively, DA) was -2018 (respectively, -1969). For DAA-DDA bonds, and for short H bonds in general, there was a strong inverse correlation between /deltaZPE[H*]/ and the O-H* distance. deltaZPE for multiple H-to-D substitutions was additive, except for a cooperativity effect of -13.7 to -19.7 cal mol(-1) when two substituted protons were in the same H2O unit and a much smaller cooperativity when one proton's donor was the other's acceptor. Implications of these data include a relative preference for D to occupy H bonded rather than free positions in finite water clusters, a value of 3.82 for the disproportionation equilibrium constant of mixed ice at 150 K, increased occupation by H at surface positions of mixed ice, and a larger average coordination number for liquid D2O than for liquid H2O.  相似文献   
设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号