Wednesday, October 8, 2008

Transition Metal catalyzed Reaction

Transition Metal catalyzed Reaction A collection of transition metal catalysed reaction. Transition Metal catalyzed Reaction

Saturday, September 6, 2008

Collection of Coupling Reaction

Collection of Coupling Reaction
Condensation Reaction is an important type of reaction in the synthetic organic chemistry. You can get all Named condensation reaction here.

Friday, August 1, 2008

Gandeepan's Important links for Chemistry

Gandeepan's Important links For Chemistry. http://www.abc.chemistry.bsu.by/current/fulltext11.htm - it containes the full text journals of current trends. Including Indian journal of chemistry. http://www.abc.chemistry.bsu.by/current/fulltext11.htm it contain full text rusian Journals. http://www.freemedicaljournals.com/ This site contain full text medical journal. http://depth-first.com/articles/2007/01/24/thirty-two-free-chemistry-databases This page contain 32 chemistry search engines. http://goldbook.iupac.org/literature.html This sight have the collection of Chemistry book from IUPAC. http://pubchem.ncbi.nlm.nih.gov/sources/sources.cgi This site contain PubChem Substance Data Source Information. http://serve.me.nus.edu.sg/arun/Useful_links.htm it contain N-number of links for physical chemistry and general chemistry related topics. (VERY GOOD) http://www.rod.beavon.clara.net/chemistry_contents.htm This is good sight for chemistry fundamental notes. http://www.intute.ac.uk/sciences/reference/chemlecs/ This sight containing the vast details for chemistry study materials. http://www.ux1.eiu.edu/~cfthb/links/research/ This is very good site to have a collection of chemistry sites. http://sites.google.com/site/rajigandeechemistryinfo/Home

Thursday, July 31, 2008

Interesting & Informative Web Sites for Chemistry

Interesting & Informative Web Sites

WebElements An interactive periodic table. Stanford's Swain Library A collection of useful data tables, calculators and modeling tools.. NIST WebBook A thermodynamic and spectroscopic database. SI Units A useful list of SI units (in German). Data Tables Data for General, Organic, and Physical Chemistry IUPAC Rules IUPAC Nomenclature Rules. IUPAC Compendium of Chemical Terminology A useful site for definition searching. Spectra Data Base A large collection of MS, NMR, IR, Raman & ESR spectra. SpectralCalc A nice collection of spectroscopy tools.. Spectroscopy Problems Unknowns requiring the interpretation of MS, NMR & IR spectra. An Excellent Site from Notre Dame. NMR Spectroscopy Problems An outstanding collection of unknowns requiring the interpretation of nmr spectra (some ir). Compiled at UCLA. NMR Spectroscopy Problems NMR tutorials and problems. Compiled at the University of Sydney. Spectroscopy Problems A NMR tutorial and problems involving MS, NMR & IR spectra. Prepared at Imperial College. NMRShiftDB A NMR database, hosted by the Max Planck Institute of Chemical Ecology in Jena. NMR Spectroscopy-A Virtual Text The finest on-line NMR tutorial I have seen. TeleSpec An Infrared Database and Simulation Resource. Organic Chemistry Portal An extensive collection of resources useful to organic chemists. Named Reagents A large list of named compounds, reagents, catalysts and solvents. Organic Name Reactions I An indexed listing of named organic reactions from Organic Chemistry Portal. Organic Name Reactions II A listing of named organic reactions. MonomerChem Inc. Organic Name Reactions III A listing of named organic reactions. ChemPen software Organic Name Reactions IV A listing of named organic reactions. Univ. Conn. Organic Name Reactions V A large list of name reactions from Organic Chemistry Portal. Organic Name Reactions VI A list of name reactions from ecompound. Microwave Acceleration Another listing of named organic reactions improved by microwave technology The Dundee PRODRG2 Server Draw and create models of small molecules. Organic Chemistry Resources A well-organized set of organic chemistry links. World Wide Web Library A Liverpool web resource. Imperial College A nice chemistry site from the Imperial College Chem. Dept. Virtual Chemistry A useful site from Oxford. Organic Reaction Quizes A very nice summary and helpful quizzes covering basic organic reactions. Towson University ConcepTest Questions I A question bank from J. Chem. Ed. ConcepTest Questions II More multiple choice questions for ConcepTest use (Uiv. Wisconsin). Organic Chemistry OnLine A nice set of instructional pages by Paul Young, Univ. Illinois Chicago Curved Arrow Use A nice curved arrow tutorial from the University of Aberdeen . Molecular Visualization A world index of molecular visualization resources. Richaed Spinney's Chemistry Pages A Wonderful Collection of Resources. Symmetry Gallery A very nice collection of examples by Dean Johnston at Otterbein. Interactive Organic Chemistry A broad collection of topics, using 2D & 3D animations. Animations & Movies A useful collection of animation links collected by Dr. Gabor Lente. Berry Pseudorotation A nice discussion and illustration of pseudorotation. Minerals and Molecules The Wisconsin minerals and molecules project. Crystal Structures A large collection of Crystal Structures. BioChem Hub An Online Biology and Chemistry Education Center. Biomolecular Tutorials An excellent collection of Chime based tutorials & resources. Molecular Models for Biochemistry Instructional tutorials and quizes from Carnegie Mellon University PDB Browser Examining the resources of the Protein Data Bank Protein Classification Structural relationships between proteins (Cambridge) Polymers and Liquid Crystals Maintained by Case Western Reserve University Fachbereich Chemie A comprehensive site at Freien Universitat Berlin. Global Instructional Chemistry Links to instructional tools for chemistry. History A site devoted to the history of chemistry. Cambridge Soft A list of searchable databases from Cambridge Soft Corp. Chemical Safety & Toxicity Part of the Cambridge Soft Corp. database. FDA Food safety & applied nutrition. Aldrich-Sigma Catalog An on-line version of the Aldrich catalog. ACS Web Page The home page of the American Chemical Society.

Infrared Spectroscopy for Organic Chemists

Infrared Spectroscopy for Organic Chemists Web Resources Databases SDBS NIST Chemistry WebBook FDM Reference Spectra Databases AEDC/EPA spectral database Galactic Spectral Database David Sullivan FT-IR Library Ivo Leito's FT-IR spectra of paint and coating materials Sigma-Aldrich catalog Simulation of IR Spectra TeleSpec - Interactive ComSpec3D Texts IR Spectroscopy (Bristol University) (not working?) WebSpectra (UCLA) Biorad (Application Notes) WearCheck (Infrared Analysis as a Tool for Assessing Degradation in Used Engine Lubricants / Monitoring Oil Degradation with Infrared Spectroscopy) Paul Young's IR Spectroscopy Tutorial (Site 2) IR Tutor (Columbia University) Intro to IR Spectroscopy and Greenhouse Gases Chemistry Hypermedia Project Infrared Spectroscopy by Gregory Brust Virtual Textbook of Organic Chemistry by William Reusch Infrared Spectroscopy by Kildahl Organic Compound Identification Using Infrared Spectroscopy by Volland Preparation of samples for IR analysis Multimedia short course on IR spectroscopy (in German) Helpers for interpretation @CSU Stanislaus Spectroscopic Tools (University of Potsdam) IR Correlations by Vidrine Problems Organic Structure Elucidation Workbook (Notre Dame University) WebSpectra (UCLA) Miscellaneous Infrared Pages on the Net Problems and display of spectra using Chime Internet Journal of Vibrational Spectroscopy Display of vibrations in molecules Free software ACD's SpecViewer MDL's Chime Ched Demo (chemical database management software) [Site 2] http://organicgandee.googlepages.com/

Wednesday, July 23, 2008

Condensation Reaction Collections

condensation reactions are the important type of reaction which is used in Organic chemistry to make Various C-C bond and functional group. Here you can get the collection of Condensation Reactions.

Thursday, June 12, 2008

Finding a 3D structure of your molecule

Finding a 3D structure of your molecule Before you begin to search for a 3D structure, you should have some idea of what class of molecules yours belongs to. You should be able to find a 3D image of your molecule on one of the websites below or through the other options listed at the bottom of this page. Note: Some of these websites require special browser plug-ins or particular versions of a given browser. Carefully read the pertinent info on the website in order to guide your efforts. The Chemistry Department Computer Lab (Room #2216) has all of the necessary software installed. http://www.chemfinder.com This website will provide Lewis structures for most molecules and, with a plug-in that must be downloaded, will provide a 3D representation. http://www.biocheminfo.org/klotho/compound_list.html This list includes 439 biologically active compounds roughly listed alphabetically. If your compound is known by more than one name, this site may have your compound listed by a different name than you were given. The images here can be printed out directly or by right clicking you can save them to a disk. Be careful because some of the structures are not ball-and-stick models. http://www.nyu.edu/pages/mathmol/library This site has many biological molecules. You need to know the class of compounds to which yours belongs to facilitate your search. http://www.iconbazaar.com/molecules A great site for prescription drug structures. http://www.wellesley.edu/Chemistry/Flick/molecules/newlist.htm An alphabetical listing of molecules containing many small organic molecules. http://www.3dchem.com/ Some of the more hard to find molecules will appear on this website as “Molecules of the month” or in the “A to Z Index of Structures”. They all appear in 3D structures. Other options: —If the molecule is in your text, check the CD that came with your text for a 3D structure. Look in the “Molecule” folder on the CD. —Try an internet search with an engine such as Google. To learn more chemistry join CHEMISTRY LEARNERS GROUP here: http://in.groups.yahoo.com/group/chemistry_learners/

Thursday, May 29, 2008

NMR Solvent Peaks

NMR Solvent Peaks You can know here, What are solvent used for NMR analyses and their chemical shift values for proton and C13. http://organicgandee.googlepages.com/nmrsolvenpeaks

Tuesday, May 20, 2008

Preparing a Scientific Presentation

Preparing a Scientific Presentation

Identify your audience

Look upon the presentation as a dialogue with audience not a monologue. Acceptance of the speaker by the audience is key. Try to find out beforehand who might be in attendance.

Structure your material

Don't exceed the allotted time; as a rule of thumb keep presentation to 80% of allotted time. Be able to summarize content of presentation in two or three well-constructed sentences Tell 'em what you're gonna tell 'em, then tell 'em, then tell 'em what you've told 'em. In 45 minute talk: 15 minutes for introduction, 25 minutes for presentation, 5 minutes to summarize and conclude. A well-prepared abstract, an organized set of well-chosen viewgraphs, a concise `cheat-sheet,' and an outline (perhaps displayed in the corner of every viewgraph) should all help to keep you on track during your seminar.

Know your stuff

The decision not to speak is sometimes more beneficial to a person's reputation than a lecture devoid of data. Accurate, complete, well-phrased descriptions of scientific information portray speaker as a knowledgeable, reliable source of information. In contrast, glib, inaccurate statements that appear open to multiple interpretations gradually elicit skepticism and distrust. Critical examination of the information is indispensable.

Rehearse

Always rehearse a presentation. Prepare for each seminar for every individual occasion de novo, always with the specific audience in mind. Prepare-- then relax To give a good presentation it is essential to be relaxed. To ease into the presentation, a nervous speaker should write down a few opening sentences on a sheet of paper and read them out in verbatim in as natural and controlled a voice as possible at the beginning of the presentation up to the first viewgraph, making sure not to speak too fast. Dress for success Dressing up for a scientific presentation conveys two important messages: respect for your audience and willingness to conform.

The Structure of a Scientific Presentation

The title: information in a nutshell

Context and perspective: Zooming in Zooming in is the only effective method to put a presentation in perspective. The presentation must start with the description of an important general principle, then gradually focus in from there onto the experimental (or theoretical) model that the speaker wishes to describe. Advantages of zooming in: (1) it emphasizes to the audience that the work to be described bears a relevance to an important scientific principle rather than being an insignificant, isolated contribution; (2) zooming in defines the intellectual borders of the presentation. When putting a presentation in a historical perspective, always give appropriate credit to contribution of others in the field.

Telling a story

There is a distinct difference between summarizing a collection of facts and telling an exciting and interesting story. A clear thinker separates the central, relevant issues from merely supportive peripheral information and will not allow the direct line of thought to be interrupted by sidetracks. A story should have one focus and convey a single major message. To construct the plot for a scientific story, it is often useful to phrase the basic idea underlying the talk as a question.

Mainstream and Sidetracks.

There are three simple rules for preventing the loss of momentum as results of sidetracks. Keep the number of sidetracks to a minimum and use only those that are absolutely essential. Keep the excursion from the mainstream as brief as possible, providing the minimal amount of ancillary information that is absolutely crucial for a full appreciation of the presentation's mainstream. Always make clear where the sidetrack starts and when it is complete, return to the same point of the mainstream.

Formulation and Argumentation

The lecture must proceed as a logical unfolding of information. During the presentation facts must be enumerated in sequential steps, each step firmly founded on the previous one. Remember that your labyrinth of knowledge, with its familiar shortcuts, alternate routes and interconnections is unfamiliar to the audience listening to your story for the first time. To communicate effectively, avoid the use of hyperbole and jargon whenever possible! Speech reflects our thought processes, and an imprecise speaker is often an unfocused thinker. You should carefully analyze the often fuzzy borders that separate experimental evidence from speculation. The care with which this intellectual process is performed is reflected in the manner in which you formulate your sentences. By recognizing the limits of your experiment (or theory or explanation) and clearly defining the conditions under which your conclusions are valid, you gain the respect and credibility of your audience.

The conclusion: brief and to the point

Zooming out can be a valuable tool near the end of a presentation, when you remind the audience once again that the data relates back to major scientific principle with which you begin. The conclusion should be firm and decisive. The conclusion of the presentation is its most important moment. It provides the take-home message, often the only thing that will be remembered. It determines the final impression and impact that you will make on your audience. The conclusion should always be reduced to a concise statement, preferably shown as text or a simple diagram on the overhead. The conclusion should consist of a simple major statement, with not more than two or three connotations, if these are absolutely essential. The conclusion should very clearly demarcate the end of the lecture. The most important rule for a scientific presentation is to finish on time and on a clear and resonant note.

Overhead Transparencies

The three most important points for transparencies (and slides): Clean Simple Necessary to the story line Transparencies should illustrate a single point and, like the presentation itself, have only one focus. Complex data delivered during a seminar cannot be fully appreciated unless the speaker separates them into a series of simplified constituents. Try to avoid showing tables. Most audiences find equations intimidating and are likely to "tune out" as soon as one appears on the screen. [jww: If you must use an equation, define the science of all symbols before the equation.] Some general rules Lettering on viewgraphs and slides can never be too big. Uniformity of style throughout the presentation accentuates and underscores the flow and coherence of the talk. Rules for figures Graphs should contain clearly labelled axes. The less busy a figure appears, the more justice it does to the information it attempts to communicate. Delete all information from the figures that is irrelevant to the presentation. A figure can be enhanced by a line or two concisely describing the conclusions to be drawn from the figure. If the same figure has to be used more than once, use a duplicate rather than disrupt the momentum of the presentation by having to hunt for the early viewgraph. Poster presentation: the young scientist's debut performance Consider a poster primarily as an opportunity for exchange of ideas and dialogue, rather than merely a forum for data presentation. The poster should be aesthetic and clean. Simplicity above all. The poster should tell a story. Include only material relevant to the story line. Choose brief and informative title. In upper left hand corner, provide concise introduction that indicates why work presented is important within context of a major scientific principle. Describe approach in an engaging, condensed style without excessive detail. Organize presentation of data in a logical, coherent sequence. In lower right hand corner, state small number of well-phrased conclusions and a major, concise summary statement. Remember that it is not the number of people who come to view your poster, but the quality of interactions with them that determines its success. Last points Carefully double-check sequence and orientation before presentation; even more important if you are using slides. Anything out of the ordinary usually gives a presentation that special memorable touch, setting it apart from others.

Delivery

Voice Control and Eye Contact Effective use of the voice, eye contact, posture, gestures, and enthusiasm distinguish a routine presentation from a memorable one. The characteristics of delivery in terms of voice control can be separated into several interrelated properties: sound, volume, speed, and rhythm. Articulation and eye contact are the two most important components of voice presentation. Take the time to articulate every work of each sentence clearly, while maintaining eye contact with your audience. As with written text, the end of the sentence designates the "stress" position. It is here the audience expects to be provided with the most important information. Nervous, hurried speech often leads to inaccurate articulation. Take your time and do not speak faster than your normal conversational speed. Monotony is the greatest enemy of a scientific presentation. Plain silence is preferable to mere noise. Slowing down is a remedy for 90 percent of most speakers' problems. Looking straight at members of the audience establishes the notion that you are talking to them, not just in front of them. Foreign speakers who have severe language problems giving a scientific presentation should: Rehearse and practice the presentation often, preferably with a friend who is a native English speaker, and almost learn it by heart. Structure your viewgraphs in such a way that the images are able to convey most of the story by themselves, even if you are hard to understand. Posture and gestures. Stand straight up. Do not be stationary--change positions occasionally and move around the podium/platform. Avoid distracting mannerisms like swinging the pointer aimlessly around. Speaking with a hand in your pocket looks sloppy and unattractive. Gestures can underscore spoken language. Enthusiasm: the indispensable ingredient. Genuine enthusiasm accounts for 90 percent of a speaker's success. Answering questions. The speaker should attempt to control the crowd, permitting question as the speaker's convenience. By making it politely clear that the audience should not interrupt, the speaker will discourage impulsive ad hoc questions and can focus on the presentations. In doing so, you will also establish control and authority. [jww. This is tricky than it seems since an inexperienced speaker may have omitted an essential piece of information the audience need to understand the talk. A clarifying question promptly answered may save such a situation.] Always answer questions briefly and to the point. It is in many cases advantageous to repeat the question before answering it. In addition, repeating the question gives you the chance to rephrase the question. It is always a good idea to be polite and gracious. The most important advice to remember is, communicate with your audience and convey enthusiasm about your work.

Summary

Three devices can put a presentation in the desired perspective. Indicate the scope of the presentation by an informative title. "Zoom in" to the topic during the introductory segment of the presentation and "zoom out" near its end. Decide on the underlying question that the presentation seeks to address; then divide that question into a hierarchically organized array of subquestions, and develop the presentations as a series of answers to these questions. The mainstream of the presentation should address a single focus issue, tuned to the interests of the audience. Sidetracks from this mainstream should be brief and should always return to the same point in the mainstream where they started. Omit information not directly relevant to the focus of the presentation, and avoid backtracking. The statements constituting the mainstream of the presentation should delineate a clear, logical line of thought. Formulate explanations of scientific concepts and experimental (or theoretical) methodology unambiguously, without professional jargon. The presentation should end with a clearly formulated, concise conclusion. When the take-home message has been delivered, stop.

http://organicgandee.googlepages.com/

Thursday, May 15, 2008

Hydrogen: the essentials Brief description: hydrogen is the lightest element. It is by far the most abundant element in the universe and makes up about about 90% of the universe by weight. Hydrogen as water (H2O) is absolutely essential to life and it is present in all organic compounds. Hydrogen is the lightest gas. Hydrogen gas was used in lighter-than-air balloons for transport but is far too dangerous because of the fire risk (Hindenburg). It burns in air to form only water as waste product and if hydrogen could be made on sufficient scale from other than fossil fuels then there might be a possibility of a hydrogen economy. Note that while normally shown at the top of the Group 1 elements in the periodic table, the term "alkaline metal" refers only to Group 1 elements from lithium onwards. Table: basic information about and classifications of hydrogen. Name: Hydrogen Symbol: H Atomic number: 1 Atomic weight: 1.00794 (7) [see notes g m r] Standard state: gas at 298 K CAS Registry ID: 1333-74-0 Group in periodic table: 1 Group name: (none) Period in periodic table: 1 Block in periodic table: s-block Colour: colourless Classification: Non-metallic The lifting agent for the ill fated Hindenberg ballooon was hydrogen rather than the safer helium. The image below is the scene probably in a way you have not seen it before. This is a "ray-traced" image reproduced with the permission of Johannes Ewers, the artist, who won first place with this image in the March/April 1999 Internet Raytracing Competition. For details of ray-tracing you can't beat the POV-Ray site. Isolation Isolation: in the laboratory, small amounts of hydrogen gas may be made by the reaction of calcium hydride with water. CaH2 + 2H2O → Ca(OH)2 + 2H2 This is quite efficient in the sense that 50% of the hydrogen produced comes from water. Another very convenient laboratory scale experiment follows Boyle's early synthesis, the reaction of iron filings with dilute sulphuric acid. Fe + H2SO4 → FeSO4 + H2 There are many industrial methods for the production of hydrogen and that used will depend upon local factors such as the quantity required and the raw materials to hand. Two processes in use involve heating coke with steam in the water gas shift reaction or hydrocarbons such as methane with steam. CH4 + H2O (1100°C) → CO + 3H2 C(coke) + H2O (1000°C) → CO + H2 In both these cases, further hydrogen may be made by passing the CO and steam over hot (400°C) iron oxide or cobalt oxide. CO + H2O → CO2 + H2

Tuesday, April 8, 2008

CHEMISTRY JOURNALS

Alphabetical listing of journals -A- Accounts of Chemical Research Acta BiotechnologicaActa hydrochimica et hydrobiologica Acta PolymericaActa Polymerica 1979 - 1997 Advanced Drug Delivery Reviews Advanced Engineering Materials Advanced Functional MaterialsAdvanced Materials Advanced Materials for Optics and Electronics Advanced Synthesis & Catalysis Advances in Colloid and Interface Science Advances in Polymer Technology Advances in Polymer Technology 1981 - 1995 Aldrichimica Acta Amino Acids Analyst, The Analytica Chimica Acta Analytical Abstracts Analytical and Bioanalytical Chemistry Analytical BiochemistryAnalytical Chemistry Analytical Communications Angewandte Chemie Angewandte Chemie International Edition Annales de Chimie Science des Matériaux Annual Reports on the Progress of Chemistry Section A (Inorganic Chemistry) Annual Reports on the Progress of Chemistry Section B (Organic Chemistry) Annual Reports on the Progress of Chemistry Section C (Physical Chemistry) Applied BiomaterialsApplied Catalysis - now supplied as Applied Catalysis A and Applied Catalysis B Applied Catalysis A: General Applied Catalysis B: Environmental Applied Composite Materials Applied Macromolecular Chemistry and Physics (Die Angewandte Makromolekulare Chemie)Applied Macromolecular Chemistry and Physics (Die Angewandte Makromolekulare Chemie) 1967 - 1997 Applied Magnetic Resonance Applied Organometallic Chemistry Applied Radiation and Isotopes Applied Surface Science Archiv der Pharmazie Archives of Biochemistry and Biophysics Archives of Insect Biochemistry and Physiology Australian Journal of Chemistry -B- Biochemical and Biophysical Research Communications Biochemistry Bioconjugate Chemistry Bioelectrochemistry Bioelectrochemistry and Bioenergetics Now known as Bioelectrochemistry Biological Chemistry Biomacromolecules Biomaterials Biomedical Chromatography Bioorganic & Medicinal Chemistry Bioorganic & Medicinal Chemistry Letters Bioorganic Chemistry Biopharmaceutics & Drug Disposition Biophysical Chemistry Biopolymers Biosensors - Now known as Biosensors and BioelectronicsBiosensors and Bioelectronics Biospectroscopy Biotechnology & Bioengineering Biotechnology Progress Bulletin of the Chemical Society of Japan -C- Calphad Canadian Journal of Chemistry Carbohydrate Polymers Carbohydrate Research Carbon Catalysis Communications Catalysis Today Catalysts & Catalysed Reactions ChemBioChem Chemical & Engineering News Chemical Biology Virtual Journal Chemical Communications Chemical Education International Chemical Engineering & Technology Chemical Hazards in Industry Chemical Health and Safety Chemical Physics Chemical Physics Letters Chemical Record, The Chemical Research in Toxicology Chemical Reviews Chemical Society Reviews Chemical Vapor Deposition Chemistry: A European Journal Chemistry & Biology Chemistry & Industry Chemistry and Physics of Lipids Chemistry in Britain Chemistry International Chemistry Letters Chemistry of Heterocyclic Compounds Chemistry of Materials Chemistry of Natural Compounds Chemometrics and Intelligent Laboratory Systems-Incorporating Laboratory Automation & Information Management Chemosphere ChemPhysChem Chinese Journal of Chemistry Chirality Chromatographic Reviews Clinica Chimica Acta Collection of Czech Chem Comm Colloid Journal Colloids and Surfaces A: Physicochemical and Engineering Aspects Colloids and Surfaces B: Biointerfaces Color Research & Application Combinatorial Chemistry & High Throughput Screening Comptes Rendus Chimie- Formerly known as Comptes Rendus de l'Académie des Sciences- Series IIC- Chemistry Comptes Rendus de l'Académie des Sciences- Series IIC- Chemistry- Now known as Comptes Rendus Chimie Computational and Theoretical Polymer Science Computer Physics Communications Computers & Chemistry Concepts in Magnetic Resonance Part A: Concepts in Magnetic Resonance Imaging Concepts in Magnetic Resonance Part B: Magnetic Resonance Engineering Coordination Chemistry Reviews Corrosion Science Critical Reviews in Analytical Chemistry Crystal Engineering Crystal Growth & Design Crystal Research and Technology CrystEngComm Current Medicinal Chemistry Current Medicinal Chemistry -Anti-Cancer Agents Current Medicinal Chemistry -Central Nervous System Agents Current Medicinal Chemistry - Immunology, Endocrine & Metabolic Agents Current Opinion in Chemical Biology Current Organic Chemistry Current Topics in Medicinal Chemistry -D- Dalton Transactions Diamond and Related Materials Die Angewandte Makromolekulare Chemie DieAngewandte Makromolekulare Chemie 1967 - 1997 DNA Repair- Formerly known as Mutation Research-DNA Repair Drug Development Research Drug Discovery Today incorporating Pharmaceutical Science & Technology Today Dyes and Pigments -E- Education in Chemistry Electroanalysis Electrochemistry Communications Electrochimica Acta Electronic Journal of Theoretical Chemistry Electrophoresis Energy & Fuels Environmental Science & Technology Environmental Toxicology and Chemistry European Journal of Inorganic Chemistry European Journal of Lipid Science and Technology European Journal of Mass Spectrometry European Journal of Medicinal Chemistry European Journal of Organic Chemistry European Journal of Pharmaceutical Sciences European Journal of Solid State and Inorganic Chemistry -Now known as Solid State Sciences European Polymer Journal -F- Faraday Discussions Faraday Transactions IlFarmaco Fett - Lipid Fibre Chemistry Field Analytical Chemistry & Technology Fire and Materials Fitoterapia Flavour and Fragrance Journal Fluid Phase Equilibria Food Chemistry Food/Nahrung Food Hydrocolloids Foundations of Chemistry Fuel Cells -G- Genomics Geochemical Transactions Green Chemistry -H- Hazards in the Office Helvetica Chimica Acta Heteroatom Chemistry Heterocycles -I- Industrial & Engineering Chemistry Research Infrared Physics & Technology Inorganic Chemistry Inorganic Chemistry Communications Inorganica Chimica Acta International Journal of Chemical Kinetics International Journal of Heat and Fluid Flow International Journal of Hydrogen Energy International Journal of Inorganic Materials- incororated into Solid State Sciences International Journal of Mass Spectrometry International Journal of Quantum Chemistry Internet Journal of Chemistry Issues in Environmental Science and Technology -J- Journal für Praktische Chemie Journal of Aerosol Science Journal of Agricultural and Food Chemistry Journal of Analytical and Applied Pyrolysis Journal of Analytical Atomic Spectrometry Journal of Analytical Chemistry Journal of Applied Polymer Science Journal of Applied Polymer Science 1959 - 1995 Journal of Biochemical and Molecular Toxicology Journal of Biochemical Toxicology Journal of Biological Chemistry Journal of Biological Inorganic Chemistry Journal of Bioluminescence and Chemiluminescence Journal of Biomedical Materials Research Part A Journal of Biomedical Materials Research Part B: Applied Biomaterials Journal of Biomolecular NMR Journal of Catalysis Journal of Chemical & Engineering Data Journal of Chemical Crystallography Journal of Chemical Information and Computer Sciences Journal of Chemical Neuroanatomy Journal of Chemical Physics Journal of Chemical Research (Synopses) 1997-1999 Journal of Chemical Research (Synopses) 2000-Present Journal of Chemical Technology & Biotechnology Journal of Chemical Thermodynamics Journal of Chemometrics Journal of Chromatography A Journal of Chromatography B Formerly known as Journal of Chromatography B: Biomedical Sciences and Applications Journal of Chromatography B: Biomedical Sciences and Applications Now known as Journal of Chromatography B Journal of Colloid and Interface Science Journal of Combinatorial Chemistry Journal of Computational Chemistry Journal of Computer Aided Chemistry Journal of Computer-Aided Molecular Design Journal of Crystal Growth Journal of Electroanalytical Chemistry Journal of Electron Spectroscopy and Related Phenomena Journal of Environmental Monitoring Journal of Fluorine Chemistry Journal of High Resolution Chromatography Journal of Inorganic and Organometallic Polymers Journal of Inorganic Biochemistry Journal of Labelled Compounds and Radiopharmaceuticals Journal of Luminescence Journal of Magnetic Resonance, Series A- Now known as Journal of Magnetic Resonance Journal of Magnetic Resonance, Series B- Incorporated into Journal of Magnetic Resonance Journal of Magnetic Resonance Journal of Mass Spectrometry Journal of Materials Chemistry Journal of Materials Science Journal of Materials Science: Materials in Medicine Journal of Mathematical Chemistry Journal of Medicinal Chemistry Journal of Membrane Science Journal of Microcolumn Separations Journal of Molecular Catalysis- Now known as Journal of Molecular Catalysis A: Chemical Journal of Molecular Catalysis A: Chemical- Formerly known as Journal of Molecular Catalysis Journal of Molecular Catalysis B: EnzymaticJournal of Molecular Graphics- Now known as Journal of Molecular Graphics and Modelling Journal of Molecular Graphics and Modelling- Formerly known as Journal of Molecular Graphics Journal of Molecular Liquids Journal of Molecular Recognition Journal of Molecular Spectroscopy Journal of Molecular Structure: THEOCHEM Journal of Molecular Structure Journal of Nanoparticle Research Journal of Natural Products Journal of Organic Chemistry Journal of Organometallic Chemistry Journal of Peptide Science Journal of Pharmaceutical and Biomedical Analysis Journal of Pharmaceutical Science Journal of Photochemistry- now known as Journal of Photochemistry and Photobiology A: Chemistry and Journal of Photochemistry and Photobiology B: Biology Journal of Photochemistry and Photobiology A: Chemistry Journal of Photochemistry and Photobiology B: Biology Journal of Photochemistry and Photobiology C: Photochemistry Reviews Journal of Physical Chemistry Journal of Physical Chemistry A Journal of Physical Chemistry B Journal of Physical Organic Chemistry Journal of Physics and Chemistry of Solids Journal of Polymer Science 1946 - 1995 Journal of Polymer Science Part A: Polymer Chemistry Journal of Polymer Science Part B: Polymer Physics Journal of Polymers and the Environment Journal of Porphyrins and Phthalocyanines Journal of Protein Chemistry Journal of Proteome Research Journal of Quantitative Spectroscopy & Radiative Transfer Journal of Radioanalytical and Nuclear Chemistry Journal of Raman Spectroscopy Journal of Separation Science Journal of Solid State Chemistry Journal of Solution Chemistry Journal of Structural Chemistry Journal of Supercritical Fluids Journal of Supramolecular Chemistry Journal of the American Chemical Society Journal of the American Society for Mass Spectrometry Journal of the Chemical Computing Group Journal of Thermal Analysis and Calorimetry Journal of the Science of Food and Agriculture -K- Kinetics and Catalysis -L- Lab on a Chip Laboratory Automation & Information Management- Incorporated into Chemometrics and Intelligent Laboratory Systems Laboratory Hazards Bulletin Laboratory Robotics and Automation Langmuir Letters in Peptide Science Lipid - Fett Luminescence -M- Macromolecular Bioscience Macromolecular Chemistry and Physics Macromolecular Chemistry and Physics 1947 - 1997 Macromolecular Materials and Engineering Macromolecular Rapid Communications Macromolecular Rapid Communications 1980 - 1997 Macromolecular Symposia Macromolecular Theory and Simulations Macromolecular Theory and Simulations 1992 -1997 Macromolecules Magnetic Resonance in Chemistry Magnetic Resonance Materials in Physics, Biology and Medicine (MAGMA) Main Group Metal Chemistry Mass Spectrometry Bulletin (MSB) Mass Spectrometry Reviews Materials and Corrosion - Werkstoffe und Korrosion Materials Science and Engineering B: Solid-State Materials for Advanced Technology Materials Science and Engineering C: Biomimetic and Supramolecular Systems Medicinal Chemistry Research Medicinal Research Reviews Mendeleev Communications Methods in Organic Synthesis Microchemical Journal Microchimica Acta Microporous and Mesoporous Materials-Incorporating Microporous Materials and Zeolites Microporous Materials-Incorporated into Microporous and Mesoporous Materials Modern Drug Discovery Molecular Diversity Molecular Pharmaceutics Molecules OnlineMolecules, A Journal of Synthetic Chemistry and Natural Product Chemistry Monatshefte für Chemie/Chemical Monthly Mutation Research-DNA Repair- Now known as DNA Repair -N- Nahrung/Food Nano Letters Natural Product Reports Natural Product Updates Nature Nature Biotechnology Nature Cell Biology Nature Genetics Nature Immunology Nature Materials Nature Medicine Nature Neuroscience Nature Reviews Drug Discovery Nature Structural Biology New Journal of Chemistry New ScientistNuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms Nucleic Acids Research -O- Optical Materials Optics Communications Organic & Biomolecular Chemistry Organic Letters Organic Process Research & Development Organometallics -P- Packaging Technology and Science Particle & Particle Systems Characterization Peptides Perkin Transactions 1 Perkin Transactions 2 Perspectives in Drug Discovery and Design Pest Management Science Pesticide Outlook Pesticide Science Pharmaceutical Chemistry Journal Pharmaceutical Science & Technology Today incorporated into Drug Discovery Today Photochemical & Photobiological Sciences PhysChemCommPhysica B: Condensed Matter Physica D: Nonlinear Phenomena Physical Chemistry Chemical Physics Phytochemical Analysis Phytochemistry Phytochemistry Reviews Phytotherapy Research Plasmas & Ions Polyhedron Polymer Polymer International Polymer International 1994 - 1995 Polymers for Advanced Technologies Polymers for Advanced Technologies 1990 - 1995 Proceedings of the National Academy of Sciences Progress in Crystal Growth and Characterization of Materials Progress in Lipid Research Progress in Nuclear Magnetic Resonance Spectroscopy Progress in Polymer Science Progress in Solid State Chemistry Propellants, Explosives, Pyrotechnics Protein and Peptide Letters Protein Science Proteins Structure, Function, and Genetics Proteomics Pure & Applied Chemistry -Q- QSAR & Combinatorial Science -R- Radiation Physics and Chemistry Radiochemistry Rapid Communications in Mass Spectrometry Reaction Kinetics and Catalysis Letters Reactive and Functional Polymers Reactivity of Solids Revue Française des Laboratoires Russian Chemical Reviews Russian Journal of Bioorganic Chemistry Russian Journal of Coordination Chemistry Russian Journal of Electrochemistry Russian Journal of Organic Chemistry -S- Science Scientific American Sensors and Actuators- Now published as Sensors and Actuators A: Physical and Sensors and Actuators B: Chemical Sensors and Actuators A: Physical- Formerly part of Sensors and Actuators Sensors and Actuators B: Chemical- Formerly part of Sensors and Actuators Sensors Update Signal Transduction Silicon Chemistry Single Molecules Solid State Communications Solid State Ionics Solid State Nuclear Magnetic Resonance Solid State Sciences -formerly European Journal of Solid State and Inorganic Chemistry and incorporating International Journal of Inorganic Materials Starch/Stärke Steroids Structural Chemistry Superlattices and Microstructures Supramolecular Science- Incorporated into Materials Science and Engineering C: Biomimetic and Supramolecular Systems Surface and Coatings Technology Surface and Interface Analysis Surface Science (including Surface Science Letters) Surface Science Reports Synlett Synthesis Synthetic Communications -T- Talanta Tetrahedron Tetrahedron: Asymmetry Tetrahedron Letters Thermochimica Acta Today's Chemist at Work Transition Metal Chemistry Trends in Analytical Chemistry (TrAC) -U- Ultramicroscopy Ultrasonics Sonochemistry University Chemistry Education -V- Vibrational Spectroscopy -W- Wear -X- X-Ray Spectrometry -Y- -Z- Zeitschrift für Anorganische und Allgemeine Chemie Zeitschrift für Naturforschung B-A Journal of Chemical Science Zeolites- Incororated into Microporous and Mesoporous Materials