检索 2008 年 Web of Science 分析得到 11 篇化学领域中国作者发表的热点论文,分别刊登在 7 种期刊上,其中 ANGEWANDTE CHEMIE-INTERNATIONAL EDITION 《应用化学国际版》 2 篇、 ORGANIC LETTERS 《有机快报》 2 篇、 ADVANCED MATERIALS 《先进材料》 2 篇、 JOURNAL OF THE AMERICAN CHEMICAL SOCIETY 《美国化学会志》 2 篇、 CRYSTAL GROWTH DESIGN 《晶体成长与设计》 1 篇、 CHEMICAL COMMUNICATIONS 《化学通讯》 1 篇、 ANALYTICAL CHEMISTRY 《分析化学》 1 篇。 1 、 Title: Multiple C-H activations to construct biologically active molecules in a process completely free of organohalogen and organometallic components Author(s): Li BH, Tian SL, Fang Z, et al. Source: ANGEWANDTE CHEMIE-INTERNATIONAL EDITION Volume: 47 Issue: 6 Pages: 1115-1118 Published: 2008 Times Cited: 18 Reprint Address: Shi, ZH (reprint author), Peking Univ, Coll Chem, PKU Green Chem Ctr, Key Lab Bioorgan Chem Mol Engn Minist Educ,Natl, Beijing 100871, Peoples R China 2007 年影响因子 10.31 2、Title: Organocatalytic asymmetric three-component cyclization of cinnamaldehydes and primary amines with 1,3-dicarbonyl compounds: Straightforward access to enantiomerically enriched dihydropyridines Author(s): Jiang J, Yu J, Sun XX, et al. Source: ANGEWANDTE CHEMIE-INTERNATIONAL EDITION Volume: 47 Issue: 13 Pages: 2458-2462 Published: 2008 Times Cited: 12 Reprint Address: Gong, LZ (reprint author), Univ Sci Technol China, Hefei Natl Lab Phys Sci Microscale, Hefei 230026, Peoples R China 2007 年影响因子 10.31 3 、 Title: Elaboration of 2-(trifluoromethyl)indoles via a cascade coupling/condensation/deacylation process Author(s): Chen Y, Wang YJ, Sun ZM, et al. Source: ORGANIC LETTERS Volume: 10 Issue: 4 Pages: 625-628 Published: FEB 21 2008 Times Cited: 11 Reprint Address: Ma, DW (reprint author), Chinese Acad Sci, Shanghai Inst Organ Chem, State Key Lab Bioorgan Nat Prod Chem, 354 Fenglin Lu, Shanghai 200032, Peoples R China 2007 年影响因子 4.802 4、Title: Highly enantioselective direct syn- and anti-aldol reactions of dihydroxyacetones catalyzed by chiral primary amine catalysts Author(s): Luo SZ, Xu H, Zhang L, et al. Source: ORGANIC LETTERS Volume: 10 Issue: 4 Pages: 653-656 Published: FEB 21 2008 Times Cited: 11 Reprint Address: Luo, SZ (reprint author), Chinese Acad Sci, Grad Sch, Inst Chem, Ctr Chem Biol,Beijing Natl Lab Mol Sci, Beijing 100080, Peoples R China 2007 年影响因子 4.802 5 、 Title: Asymmetric direct aldol reaction of functionalized ketones catalyzed by amine organocatalysts based on bispidine Author(s): Liu J, Yang ZG, Wang Z, et al. Source: JOURNAL OF THE AMERICAN CHEMICAL SOCIETY Volume: 130 Issue: 17 Pages: 5654-+ Published: APR 30 2008 Times Cited: 10 2007 年影响因子 7.885 6 、 Title: Half-metallicity in edge-modified zigzag graphene nanoribbons Author(s): Kan EJ, Li ZY, Yang JL, et al. Source: JOURNAL OF THE AMERICAN CHEMICAL SOCIETY Volume: 130 Issue: 13 Pages: 4224-+ Published: APR 2 2008 Times Cited: 10 Reprint Address: Yang, JL (reprint author), Univ Sci Technol China, Hefei Natl Lab Phys Sci Microscale, Hefei 230026, Peoples R China 2007 年影响因子 7.885 7 、 Title: Chain, pillar, layer, and different pores: A N-[(3-carboxyphenyl)-sulfonyllglycine ligand as a versatile building block for the construction of coordination polymers Author(s): Ma LF, Wang LY, Huo XK, et al. Source: CRYSTAL GROWTH DESIGN Volume: 8 Issue: 2 Pages: 620-628 Published: FEB 2008 Times Cited: 10 Reprint Address: Wang, LY (reprint author), Luoyang Normal Univ, Coll Chem Chem Engn, Luoyang 471022, Peoples R China 2007 年影响因子 4.046 8 、 Title: Unusual parallel and inclined interlocking modes in polyrotaxane-like metal-organic frameworks Author(s): Yang J, Ma JF, Batten SR, et al. Source: CHEMICAL COMMUNICATIONS Issue: 19 Pages: 2233-2235 Published: MAY 21 2008 Times Cited: 9 Reprint Address: Ma, JF (reprint author), NE Normal Univ, Dept Chem, Key Lab Polyoxometalate, Changchun 130024, Peoples R China 2007 年影响因子 5.141 9 、 Title: Practical approach for the identification and isomer elucidation of biomarkers detected in a metabonomic study for the discovery of individuals at risk for diabetes by integrating the chromatographic and mass spectrometric information Author(s): Chen J, Zhao X, Fritsche J, et al. Source: ANALYTICAL CHEMISTRY Volume: 80 Issue: 4 Pages: 1280-1289 Published: FEB 15 2008 Times Cited: 9 2007 年影响因子 5.287 10 、 Title: Tunable emission from binary organic one-dimensional nanomaterials: An alternative approach to white-light emission Author(s): Zhao YS, Fu HB, Hu FQ, et al. Source: ADVANCED MATERIALS Volume: 20 Issue: 1 Pages: 79-+ Published: JAN 7 2008 Times Cited: 9 Reprint Address: Yao, JN (reprint author), Chinese Acad Sci, Inst Chem, Beijing 100080, Peoples R China 2007 年影响因子 8.191 11 、 Title: Tunable n-type conductivity and transport properties of Ga-doped ZnO nanowire arrays Author(s): Yuan GD, Zhang WJ, Jie JS, et al. Source: ADVANCED MATERIALS Volume: 20 Issue: 1 Pages: 168-+ Published: JAN 7 2008 Times Cited: 9 Reprint Address: Zhang, WJ (reprint author), City Univ Hong Kong, COSDAF, Hong Kong, Hong Kong Peoples R China 2007 年影响因子 8.191
What is Chemistry? 对于这样一个看似简单而平常的问题, 您的回答是什么? 很显然, 不同层次的人会给出各自不同的答案。我所资深院士陆熙炎先生的回答 十分巧妙 、 创意独特而令人印象深刻: Chem is try = Chem + is + try ___that is, Chemistry is try! --------- 摘自陆老一演讲
检索 2008 年 Web of Science 分析得到 5 篇化学领域高引用论文,其中第 4 、 5 篇为评论。 1 、 Title: A short history of SHELX Author(s): Sheldrick GM Source: ACTA CRYSTALLOGRAPHICA SECTION A Volume: 64 Pages: 112-122 Part: Part 1 Published: JAN 2008 Times Cited: 2,685 2 、 Title: Iron - based layered superconductor La FeAs (x=0.05-0.12) with T-c=26 K Author(s): Kamihara Y, Watanabe T, Hirano M, et al. Source: JOURNAL OF THE AMERICAN CHEMICAL SOCIETY Volume: 130 Issue: 11 Pages: 3296-+ Published: MAR 19 2008 Times Cited: 200 3 、 Title: Chemically derived , ultrasmooth graphene nanoribbon semiconductors Author(s): Li XL, Wang XR, Zhang L, et al. Source: SCIENCE Volume: 319 Issue: 5867 Pages: 1229-1232 Published: FEB 29 2008 Times Cited: 43 4 、 Title: Hybrid porous solids : past , present , future Author(s): Ferey G Source: CHEMICAL SOCIETY REVIEWS Volume: 37 Issue: 1 Pages: 191-214 Published: 2008 Times Cited: 47 5 、 Title: Density functionals with broad applicability in chemistry Author(s): Zhao Y, Truhlar DG Source: ACCOUNTS OF CHEMICAL RESEARCH Volume: 41 Issue: 2 Pages: 157-167 Published: FEB 2008 Times Cited: 30
Chemical information is in the early stages of a revolution. Long dominated by a handful of established players, the field has rather suddenly opened up to a variety of innovative newcomers. The Internet now offers a diverse array of free online chemistry databases, twelve of which were summarized in a recent article. This list has since been updated with new information and new entries. The following (incomplete) list summarizes some of the possibilities available for your next search. PubChem - The granddaddy of all free chemistry databases. Search over 8 million compounds by a variety of criteria. Although some PubChem records are linked into the primary literature through MeSH, most are not. But this doesn't seem to be PubChem's true calling. Instead, PubChem may well evolve into the world's largest online collection of molecular data sheets. Increasingly, the other databases in this list are cross-referencing their entries into PubChem. PubChem's entire database can be downloaded by FTP. CAS Registry are correct to see PubChem as the first real competition they've had in decades. ZINC - A free database of commercially-available compounds for virtual screening. Search over 4.6 million compounds by structure, IUPAC name, InChI, and a host of calculated properties. For noncommercial purposes, the ZINC database may be downloaded in whole or in part for local use. eMolecules - Google for molecules. With a simple interface and super fast search engine, eMolecules augments PubChem with other information sources, including specialty chemical catalogs. Although eMolecules' emphasis seems to be on commercially-available compounds, it's only possible to get a link directly into a supplier's online catalog for a limited number of molecules. Most of the links are to PubChem records. For this reason, I don't find eMolecules very useful in its current form. If you remember something called Chmoogle, this is the same service (moral: don't mess with Google). CHEBI - A freely available dictionary of molecular entities focused on small chemical compounds. CHEBI draws its information from two main sources: Integrated Relational Enzyme Database of the EBI and the Kyoto Encyclopedia of Genes and Genomes. Find out what proteins a molecule has been associated with and in what context. Provides cross-links to CAS registry numbers, Beilstein registry numbers, and Gmelin registry numbers. NIST Chemistry WebBook - Physical data (thermochemical, thermophysical, and ion energetics) for mostly organic compounds. Search by formula, structure, CAS number, and IUPAC name. BioCyc - A collection of about 3,500 compounds involved as enzyme substrates, products, inhibitors, and activators. On accepting a license agreement, the entire database can be freely downloaded in Chemical Markup Language format. ChemExper - Find a supplier for your specialty chemical needs. Search by structure, name, molecular formula, and CAS number. After finding you compound, get an offer from one or more suppliers. I can't vouch for how this works in practice, but it sounds like a good idea. Compendium of Pesticide Common Names - More than 1,100 commonly-used pesticides. Compounds are located by browsing indexed lists (IUPAC name, CAS number, and trade name) rather than searching. Each entry lists, among other pieces of information, a chemical structure and sub-classifications (repellents, antifeedants, synergists, etc.). NMRShiftDB - Organic structures and their nuclear magnetic resonance (nmr) chemical shifts. NMRShiftDB contains chemical shift data for over 22,000 organic compounds and 19,000 spectra. Records can be searched by structure, chemical shift and nucleus. NMRShiftDB is truly open; it can be accessed programmatically and the source code for the software that runs the online database can be freely downloaded. Individual users can submit their own spectral shifts for peer review and subsequent inclusion. Chemical Structure Lookup Service (CSLS)- An address book for chemical structures. If you've ever used Metacrawler, then you'll recognize the idea behind SCLS, which is to aggregate several free chemistry databases. Search over 27 million molecules by IUPAC name, InChI, structure, SMILES, and a variety of molecular identifiers. Your results set will contain links into specific databases that host the molecules you find. The user interface isn't just unfriendly - it's downright antisocial. But if you can get past this, CSLS may well be one of the most useful services in this list. DrugBank - Combines detailed drug data with comprehensive drug target information. Search over 4,300 drugs by trade name, SMILES, and InChI. Each record contains information on target of action, therapeutic indication, medications the drug is an ingredient of, and trade names. Searches can be limited to only approved drugs or experimental drugs. Both the concept and interface to this service are well thought-out. Note: this service was unavailable as of Jan 19, 2007 Wikipedia - Wikipedia? Yes, Wikipedia. Wikipedia offers several kinds of chemical information produced by a knowledgeable, all-volunteer army. Looking for information on organic compounds? Consider this datasheet on morphine as an example. For those interested in synthesis, Wikipedia is increasingly being used to collaboratively author short reviews on the topic. Search capabilities are currently limited to text and don't appear to work with IUPAC names or CAS numbers. Where this quintessential disruptive technology and its offspring end up taking chemical publishing is unclear, but the ride will be spectacular. ChemDB - A chemical database is but one of the services offered by this site. Search over 4.1 million compounds by structure, or various calculated properties. ChemDB also offers a variety of free online cheminformatics tools such as Babel file format conversion, SMILES depict, and molecular property calculation. Read more about ChemDB in this Bioinformatics paper. ChemBank - Structure search over 36,000 original biological assays of small molecules collected by Harvard's Institute of Chemistry and Cell Biology (ICCB). Many of the data contained in ChemBank have never been published, making this database particularly valuable. National Institute of Allergy and Infectious Diseases Database - Structure search hundreds of thousands of screening datapoints collected by the NIAID in its HIV, Opportunistic Infection, and TB programs. National Toxicology Program - Seach by name for compounds listed in the NTP database. Returns detailed internal reports and links to the primary literature. NIST Chemical Kinetics Database - Search by reagent or product name or formula for gas phase rate constants collected from the primary literature. Computational Chemstry Comparison and Benchmark Database - Search by formula for over 600 gas phase atom and molecule physical chemistry data obtained experimentally and by computation. IUPAC-NIST Solubility Data Series - Search by name or CAS number through over 67,000 solubility measurements. Data were comprehensively compiled from over 1,800 references in primary literature. SOLV-DB - Search over 200 common solvents by name, CAS number, or chemical formula physical. Available data include boiling point, water solubility, viscosity, octanol-water partition constant, flash point, and a variety of other properties. NIMH Pyschoactive Drug Screening Program K i Database - Search over 44,000 K i determinations culled from the literature. Although this database appears to have no structure search capability, this is listed as a Future Enhancement. This is a perfect example of a very useful service that could do with a major user interface redesign. There also appears to be another (defunct) service by the same name, but a different URL. Kyoto Encyclopedia of Genes and Genomes (KEGG) - A Japanese counterpart to PubChem/PubMed. One of the most interesting services on this list, KEGG consists of four interconnected databases: KEGG Pathway; KEGG genes; KEGG Brite; and KEGG Ligand. KEGG Ligand contains over 14,000 compounds searchable by name, and crosslinked to over 45,000 biological pathways. The KEGG Ligand database can be searched by structure through KegDraw, a 2-D structure editor written in Java. With some minor configuration on my Linux system, I was able to perform some basic substructure searches using KegDraw. Your mileage may vary. A nice overview of KEGG is available in a recent article. The contents of KEGG can be downloaded by anonymous ftp for academic use. BRENDA - Search over 40,000 structures as substrates, products, cofactors, or inhibitors for enzymes. Although my search was able to find compounds by substructure, I was not able to view any links to the results. Your mileage may vary. Biochemical Pathways Database - Structure search over 1,100 small molecules as participants in biochemical pathways. A potentially useful service, but currently too slow to fully evaluate. A structure search for naphthalene hung for five minutes before I terminated it without success. ChemMine - Search by structure for compounds collected from a variety of open databases. View assay results in annotated biological experiments. I find the layout and organization of this service annoyingly confusing, but the underlying information appears to be useful nevertheless. Behind the scenes, ChemMine uses two open source cheminformatics libraries: Open Babel and JOELib. For a more detailed view of ChemMine, see the recent article. Organic Syntheses - Search by structure through the entire contents of synthetic organic chemistry's flagship resource. Substructure search requires Chime, so if you run Linux, or for some other reason can't install the plugin, you'll be out of luck. WebReactions - Structure search organic reactions in four databases containing a total of over 391,000 reactions. Each reaction hit is linked to the primary literature through a bibliographical reference. Although the interface takes some getting used to, WebReactions may make a worthy companion to the traditional SciFinder search. Spectral Database for Organic Compounds (SDBS) - Search by name, molecular formula, molecular weight range, or CAS number through over 14,000 full 1 H NMR spectra, 12,000 full 13 C spectra, and 50,000 full FT-IR spectra collected from over 32,000 compounds. BindingDB - Structure search over 24,000 K i and IC 50 measurements from over 10,000 molecules. Data is collected from, and cross-referenced to, the primary literature. I was unable to determine how to submit a substructure search through the Marvin applet on my Linux system (there is no Search button, for example). A text search for naphthalene, for example, showed some impressive potential for this database. Anyone can currently contribute to BindingDB, one of the few databases on this list to have such a policy. PDBBind - Browse over 2,700 complexes of small molecules ligands with proteins found in the Protein Databank. Structure searching requires a license. 3-D rendering comes courtesy of the ever-popular Jmol applet. AffinDB - Search affinity data for complexes found in the Protein Databank. Affinity data are cross-linked to the primary literature through PubMed. Small molecule searching is limited to IUPAC names provided in a pull-down menu. By registering, users can upload affinity data themselves. AffinDB is just one example of what might be possible as chemistry databases begin to combine multiple sources of data into easy-to-use packages. ChemRefer - It doesn't get any simpler. Type in your keywords and get links to the matching full-text PDFs from the primary literature. As mentioned before, the legality of some of ChemRefer's holdings, for example its articles from ACS journals, is not clear. But as more chemistry journals go Open Access, look to services like ChemRefer to play an increasing role in the way scientists navigate the primary literature. ChemSpider : ChemSpider is a free access providing a structure centric community for chemists. providing access to millions of chemical structure and integration a multitude of other online service. ChemSpider isthe richestsingle source of structure-based chemistry information.