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6.973 Organic Optoelectronics (MIT) 6.973 Organic Optoelectronics (MIT)

Description

The course examines optical and electronic processes in organic molecules and polymers that govern the behavior of practical organic optoelectronic devices. Electronic structure of a single organic molecule is used as a guide to the electronic behavior of organic aggregate structures. Emphasis is placed on the use of organic thin films in active organic devices including organic LEDs, solar cells, photodetectors, transistors, chemical sensors, memory cells, electrochromic devices, as well as xerography and organic non-linear optics. How to reach the ultimate miniaturization limit of molecular electronics and related nanoscale patterning techniques of organic materials will also be discussed. The class encompasses three laboratory sessions during which the students will practice the use of The course examines optical and electronic processes in organic molecules and polymers that govern the behavior of practical organic optoelectronic devices. Electronic structure of a single organic molecule is used as a guide to the electronic behavior of organic aggregate structures. Emphasis is placed on the use of organic thin films in active organic devices including organic LEDs, solar cells, photodetectors, transistors, chemical sensors, memory cells, electrochromic devices, as well as xerography and organic non-linear optics. How to reach the ultimate miniaturization limit of molecular electronics and related nanoscale patterning techniques of organic materials will also be discussed. The class encompasses three laboratory sessions during which the students will practice the use of

Subjects

organic optoelectronics | organic optoelectronics | optical | optical | electronic | electronic | polymers | polymers | organic thin films | organic thin films | organic LEDs | organic LEDs | solar cells | solar cells | photodetectors | photodetectors | transistors | transistors | chemical sensors | chemical sensors | memory cells | memory cells | electrochromic devices | electrochromic devices | xerography | xerography | organic non-linear optics | organic non-linear optics | miniaturization limit | miniaturization limit | molecular electronics | molecular electronics | nanoscale patterning | nanoscale patterning | vacuum organic deposition | vacuum organic deposition | non-vacuum organic deposition | non-vacuum organic deposition

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5.13 Organic Chemistry II (MIT) 5.13 Organic Chemistry II (MIT)

Description

5.13 is an intermediate organic chemistry course that deals primarily with synthesis, structure determination, mechanism, and the relationships between structure and reactivity emphasized. Special topics in organic chemistry are included to illustrate the role of organic chemistry in biological systems, medicine, and in the chemical industry. 5.13 is an intermediate organic chemistry course that deals primarily with synthesis, structure determination, mechanism, and the relationships between structure and reactivity emphasized. Special topics in organic chemistry are included to illustrate the role of organic chemistry in biological systems, medicine, and in the chemical industry.

Subjects

intermediate organic chemistry | intermediate organic chemistry | organic | organic | organic molecules | organic molecules | stereochemistry | stereochemistry | reaction mechanisms | reaction mechanisms | synthesis of organic compounds | synthesis of organic compounds | synthesis | synthesis | structure determination | structure determination | mechanism | mechanism | structure | structure | reactivity | reactivity

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5.13 Organic Chemistry II (MIT) 5.13 Organic Chemistry II (MIT)

Description

This intermediate organic chemistry course focuses on the methods used to identify the structure of organic molecules, advanced principles of organic stereochemistry, organic reaction mechanisms, and methods used for the synthesis of organic compounds. Additional special topics include illustrating the role of organic chemistry in biology, medicine, and industry. This intermediate organic chemistry course focuses on the methods used to identify the structure of organic molecules, advanced principles of organic stereochemistry, organic reaction mechanisms, and methods used for the synthesis of organic compounds. Additional special topics include illustrating the role of organic chemistry in biology, medicine, and industry.

Subjects

intermediate organic chemistry | intermediate organic chemistry | organic molecules | organic molecules | stereochemistry | stereochemistry | reaction mechanisms | reaction mechanisms | synthesis of organic compounds | synthesis of organic compounds | synthesis | synthesis | structure determination | structure determination | mechanism | mechanism | reactivity | reactivity | functional groups | functional groups | NMR | NMR | spectroscopy | spectroscopy | spectrometry | spectrometry | structure elucidation | structure elucidation | infrared spectroscopy | infrared spectroscopy | nuclear magnetic resonance spectroscopy | nuclear magnetic resonance spectroscopy | reactive intermediates | reactive intermediates | carbocations | carbocations | radicals | radicals | aromaticity | aromaticity | conjugated systems | conjugated systems | molecular orbital theory | molecular orbital theory | pericyclic reactions | pericyclic reactions

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12.746 Marine Organic Geochemistry (MIT) 12.746 Marine Organic Geochemistry (MIT)

Description

This class is designed to provide the student with a global to molecular-level perspective of organic matter cycling in the oceans and marine sediments. Topics include: Organic matter (C,N,P) composition, reactivity and budgets within, and fluxes through, major ocean reservoirs; microbial recycling pathways for organic matter; models of organic matter degradation and preservation; role of anoxia in organic matter burial; relationships between dissolved and particulate (sinking and suspended) organic matter; methods for characterization of sedimentary organic matter; and application of biological markers as tools in oceanography. Both structural and isotopic aspects are covered. This class is designed to provide the student with a global to molecular-level perspective of organic matter cycling in the oceans and marine sediments. Topics include: Organic matter (C,N,P) composition, reactivity and budgets within, and fluxes through, major ocean reservoirs; microbial recycling pathways for organic matter; models of organic matter degradation and preservation; role of anoxia in organic matter burial; relationships between dissolved and particulate (sinking and suspended) organic matter; methods for characterization of sedimentary organic matter; and application of biological markers as tools in oceanography. Both structural and isotopic aspects are covered.

Subjects

Marine | Marine | organic geochemistry | organic geochemistry | distribution | distribution | organic carbon | organic carbon | marine sediments | marine sediments | global | global | molecular-level perspective | molecular-level perspective | mineralization | mineralization | preservation | preservation | OC | OC | major reservoirs | major reservoirs | microbial recycling pathways | microbial recycling pathways | degradation | degradation | anoxia | anoxia | OC burial | OC burial | dissolved | dissolved | sedimentary organic matter | sedimentary organic matter | biological markers | biological markers | oceanography | oceanography

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6.973 Organic Optoelectronics (MIT)

Description

The course examines optical and electronic processes in organic molecules and polymers that govern the behavior of practical organic optoelectronic devices. Electronic structure of a single organic molecule is used as a guide to the electronic behavior of organic aggregate structures. Emphasis is placed on the use of organic thin films in active organic devices including organic LEDs, solar cells, photodetectors, transistors, chemical sensors, memory cells, electrochromic devices, as well as xerography and organic non-linear optics. How to reach the ultimate miniaturization limit of molecular electronics and related nanoscale patterning techniques of organic materials will also be discussed. The class encompasses three laboratory sessions during which the students will practice the use of

Subjects

organic optoelectronics | optical | electronic | polymers | organic thin films | organic LEDs | solar cells | photodetectors | transistors | chemical sensors | memory cells | electrochromic devices | xerography | organic non-linear optics | miniaturization limit | molecular electronics | nanoscale patterning | vacuum organic deposition | non-vacuum organic deposition

License

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6.973 Organic Optoelectronics (MIT)

Description

The course examines optical and electronic processes in organic molecules and polymers that govern the behavior of practical organic optoelectronic devices. Electronic structure of a single organic molecule is used as a guide to the electronic behavior of organic aggregate structures. Emphasis is placed on the use of organic thin films in active organic devices including organic LEDs, solar cells, photodetectors, transistors, chemical sensors, memory cells, electrochromic devices, as well as xerography and organic non-linear optics. How to reach the ultimate miniaturization limit of molecular electronics and related nanoscale patterning techniques of organic materials will also be discussed. The class encompasses three laboratory sessions during which the students will practice the use of

Subjects

organic optoelectronics | optical | electronic | polymers | organic thin films | organic LEDs | solar cells | photodetectors | transistors | chemical sensors | memory cells | electrochromic devices | xerography | organic non-linear optics | miniaturization limit | molecular electronics | nanoscale patterning | vacuum organic deposition | non-vacuum organic deposition

License

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5.067 Crystal Structure Refinement (MIT) 5.067 Crystal Structure Refinement (MIT)

Description

This course in crystal structure refinement examines the practical aspects of crystal structure determination from data collection strategies to data reduction and basic and advanced refinement problems of organic and inorganic molecules. This course in crystal structure refinement examines the practical aspects of crystal structure determination from data collection strategies to data reduction and basic and advanced refinement problems of organic and inorganic molecules.

Subjects

chemistry | chemistry | crystal structure refinement | crystal structure refinement | practical aspects | practical aspects | crystal structure determination | crystal structure determination | data collection | data collection | strategies | strategies | data reduction | data reduction | refinement problems | refinement problems | organic | organic | inorganic | inorganic | molecules | molecules | SHELXL | SHELXL | hydrogen atoms | hydrogen atoms | disorder | disorder | pseudo symmetry | pseudo symmetry | merohedral twins | merohedral twins | pseudo-merohedral twins | pseudo-merohedral twins | twinning | twinning | non-merohedral twins | non-merohedral twins | PLATON | PLATON

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5.841 Crystal Structure Refinement (MIT) 5.841 Crystal Structure Refinement (MIT)

Description

This course in crystal structure refinement examines the practical aspects of crystal structure determination from data collection strategies to data reduction and basic and advanced refinement problems of organic and inorganic molecules. This course in crystal structure refinement examines the practical aspects of crystal structure determination from data collection strategies to data reduction and basic and advanced refinement problems of organic and inorganic molecules.

Subjects

chemistry | chemistry | crystal structure refinement | crystal structure refinement | practical aspects | practical aspects | crystal structure determination | crystal structure determination | data collection | data collection | strategies | strategies | data reduction | data reduction | refinement problems | refinement problems | organic | organic | inorganic | inorganic | molecules | molecules | SHELXL | SHELXL | hydrogen atoms | hydrogen atoms | disorder | disorder | pseudo symmetry | pseudo symmetry | merohedral twins | merohedral twins | pseudo-merohedral twins | pseudo-merohedral twins | twinning | twinning | non-merohedral twins | non-merohedral twins | PLATON | PLATON

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3.063 Polymer Physics (MIT) 3.063 Polymer Physics (MIT)

Description

This course presents the mechanical, optical, and transport properties of polymers with respect to the underlying physics and physical chemistry of polymers in melt, solution, and solid state. Topics include conformation and molecular dimensions of polymer chains in solutions, melts, blends, and block copolymers; an examination of the structure of glassy, crystalline, and rubbery elastic states of polymers; thermodynamics of polymer solutions, blends, crystallization; liquid crystallinity, microphase separation, and self-assembled organic-inorganic nanocomposites. Case studies include relationships between structure and function in technologically important polymeric systems. This course presents the mechanical, optical, and transport properties of polymers with respect to the underlying physics and physical chemistry of polymers in melt, solution, and solid state. Topics include conformation and molecular dimensions of polymer chains in solutions, melts, blends, and block copolymers; an examination of the structure of glassy, crystalline, and rubbery elastic states of polymers; thermodynamics of polymer solutions, blends, crystallization; liquid crystallinity, microphase separation, and self-assembled organic-inorganic nanocomposites. Case studies include relationships between structure and function in technologically important polymeric systems.

Subjects

mechanical | mechanical | optical | optical | transport | transport | physical chemistry | physical chemistry | chemistry | chemistry | physics | physics | melt | melt | solution | solution | solid | solid | polymer chain | polymer chain | copolymer | copolymer | glass | glass | crystal | crystal | rubber | rubber | elastic | elastic | thermodynamics | thermodynamics | microphase separation | microphase separation | organic | organic | inorganic | inorganic | nanocomposite | nanocomposite

License

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5.067 Crystal Structure Refinement (MIT) 5.067 Crystal Structure Refinement (MIT)

Description

This course in crystal structure refinement examines the practical aspects of crystal structure determination from data collection strategies to data reduction and basic and advanced refinement problems of organic and inorganic molecules. This course in crystal structure refinement examines the practical aspects of crystal structure determination from data collection strategies to data reduction and basic and advanced refinement problems of organic and inorganic molecules.

Subjects

chemistry | chemistry | crystal structure refinement | crystal structure refinement | practical aspects | practical aspects | crystal structure determination | crystal structure determination | data collection | data collection | strategies | strategies | data reduction | data reduction | refinement problems | refinement problems | organic | organic | inorganic | inorganic | molecules | molecules | SHELXL | SHELXL | hydrogen atoms | hydrogen atoms | disorder | disorder | pseudo symmetry | pseudo symmetry | merohedral twins | merohedral twins | pseudo-merohedral twins | pseudo-merohedral twins | twinning | twinning | non-merohedral twins | non-merohedral twins | PLATON | PLATON

License

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5.13 Organic Chemistry II (MIT) 5.13 Organic Chemistry II (MIT)

Description

This intermediate organic chemistry course focuses on the methods used to identify the structure of organic molecules, advanced principles of organic stereochemistry, organic reaction mechanisms, and methods used for the synthesis of organic compounds. Additional special topics include illustrating the role of organic chemistry in biology, medicine, and industry. This intermediate organic chemistry course focuses on the methods used to identify the structure of organic molecules, advanced principles of organic stereochemistry, organic reaction mechanisms, and methods used for the synthesis of organic compounds. Additional special topics include illustrating the role of organic chemistry in biology, medicine, and industry.

Subjects

intermediate organic chemistry | intermediate organic chemistry | organic molecules | organic molecules | stereochemistry | stereochemistry | reaction | reaction

License

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5.43 Advanced Organic Chemistry (MIT) 5.43 Advanced Organic Chemistry (MIT)

Description

This course deals with the application of structure and theory to the study of organic reaction mechanisms: Stereochemical features including conformation and stereoelectronic effects; reaction dynamics, isotope effects and molecular orbital theory applied to pericyclic and photochemical reactions; and special reactive intermediates including carbenes, carbanions, and free radicals. This course deals with the application of structure and theory to the study of organic reaction mechanisms: Stereochemical features including conformation and stereoelectronic effects; reaction dynamics, isotope effects and molecular orbital theory applied to pericyclic and photochemical reactions; and special reactive intermediates including carbenes, carbanions, and free radicals.

Subjects

organic reaction mechanism | organic reaction mechanism | organic | organic | stereochemistry | stereochemistry | conformation | conformation | stereoelectronic effects | stereoelectronic effects | reaction dynamics | reaction dynamics | isotope effects | isotope effects | molecular orbital theory | molecular orbital theory | pericyclic | pericyclic | photochemical | photochemical | carbenes | carbenes | carbanions | carbanions | free radical | free radical | organometallic | organometallic | heterocyclic | heterocyclic

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5.12 Organic Chemistry I (MIT) 5.12 Organic Chemistry I (MIT)

Description

This subject deals primarily with the basic principles to understand the structure and reactivity of organic molecules. Emphasis is on substitution and elimination reactions and chemistry of the carbonyl group. The course also provides an introduction to the chemistry of aromatic compounds. This subject deals primarily with the basic principles to understand the structure and reactivity of organic molecules. Emphasis is on substitution and elimination reactions and chemistry of the carbonyl group. The course also provides an introduction to the chemistry of aromatic compounds.

Subjects

organic chemistry | organic chemistry | molecular structure | molecular structure | reactivity | reactivity | organic molecules | organic molecules | substitution reactions | substitution reactions | elimination reactions | elimination reactions | carbonyl group | carbonyl group | aromatic compounds | aromatic compounds

License

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5.512 Synthetic Organic Chemistry II (MIT) 5.512 Synthetic Organic Chemistry II (MIT)

Description

This course focuses on general methods and strategies for the synthesis of complex organic molecules. Emphasis is on strategies for stereoselective synthesis, including stereocontrolled synthesis of complex acyclic compounds. This course focuses on general methods and strategies for the synthesis of complex organic molecules. Emphasis is on strategies for stereoselective synthesis, including stereocontrolled synthesis of complex acyclic compounds.

Subjects

synthetic organic chemistry | synthetic organic chemistry | synthesis | synthesis | complex organic molecules | complex organic molecules | stereoselective synthesis | stereoselective synthesis | acyclic compounds | acyclic compounds | stereocontrolled synthesis | stereocontrolled synthesis | stereocontrolled alkylation | stereocontrolled alkylation | stereocontrolled conjugate addition | stereocontrolled conjugate addition | carbonyls | carbonyls | aldol reactions | aldol reactions | carbonyl reduction | carbonyl reduction | alkene reduction | alkene reduction | hydroboration | hydroboration | dihydroxylation | dihydroxylation | epoxidation | epoxidation

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5.32 Intermediate Chemical Experimentation (MIT) 5.32 Intermediate Chemical Experimentation (MIT)

Description

5.32 involves more advanced experimental work than 5.310 or 5.311. The course emphasizes organic synthesis assisted by chiral catalysis, purification, and analysis of organic compounds employing such methods as IR, 1D and 2D NMR, UV spectroscopies and mass spectrometry, and thin layer and non-chiral and chiral gas chromatography. In 5.32, experiments also involve enzyme purification, characterization and assays, as well as molecular modeling in organic synthesis and in biochemical systems. WARNING NOTICE The experiments described in these materials are potentially hazardous and require a high level of safety training, special facilities and equipment, and supervision by appropriate individuals. You bear the sole responsibility, liability, and risk for the implementation of such 5.32 involves more advanced experimental work than 5.310 or 5.311. The course emphasizes organic synthesis assisted by chiral catalysis, purification, and analysis of organic compounds employing such methods as IR, 1D and 2D NMR, UV spectroscopies and mass spectrometry, and thin layer and non-chiral and chiral gas chromatography. In 5.32, experiments also involve enzyme purification, characterization and assays, as well as molecular modeling in organic synthesis and in biochemical systems. WARNING NOTICE The experiments described in these materials are potentially hazardous and require a high level of safety training, special facilities and equipment, and supervision by appropriate individuals. You bear the sole responsibility, liability, and risk for the implementation of such

Subjects

intermediate chemical experimentation | intermediate chemical experimentation | experiment | experiment | chemistry | chemistry | organic synthesis | organic synthesis | chiral catalysis | chiral catalysis | purification | purification | organic chemistry | organic chemistry | laboratory | laboratory | IR | IR | 1D NMR | 1D NMR | 2D NMR | 2D NMR | UV spectroscopy | UV spectroscopy | mass spectrometry | mass spectrometry | thin layer gas chromatography | thin layer gas chromatography | non-chiral gas chromatography | non-chiral gas chromatography | chiral gas chromatography | chiral gas chromatography | enzyme purification | enzyme purification | characterization | characterization | assays | assays | molecular modeling | molecular modeling | biochemical systems | biochemical systems

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5.12 Organic Chemistry I (MIT) 5.12 Organic Chemistry I (MIT)

Description

5.12 is an introduction to organic chemistry, focusing primarily on the basic principles to understand the structure and reactivity of organic molecules. Emphasis is on substitution and elimination reactions and chemistry of the carbonyl group. The course also provides an introduction to the chemistry of aromatic compounds. 5.12 is an introduction to organic chemistry, focusing primarily on the basic principles to understand the structure and reactivity of organic molecules. Emphasis is on substitution and elimination reactions and chemistry of the carbonyl group. The course also provides an introduction to the chemistry of aromatic compounds.

Subjects

organic chemistry | organic chemistry | structure | structure | reactivity | reactivity | organic molecules | organic molecules | substitution | substitution | carbonyl group | carbonyl group | elimination | elimination

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10.569 Synthesis of Polymers (MIT) 10.569 Synthesis of Polymers (MIT)

Description

Studies synthesis of polymeric materials, emphasizing interrelationships of chemical pathways, process conditions, and microarchitecture of molecules produced. Chemical pathways include traditional approaches such as anionic polymerization, radical condensation, and ring-opening polymerizations. Other techniques are discussed, including stable free radical polymerizations and atom transfer free radical polymerizations (ARTP), catalytic approaches to well-defined architectures, and polymer functionalization in bulk and at surfaces. Process conditions include bulk, solution, emulsion, suspension, gas phase, and batch vs. continuous fluidized bed. Microarchitecture includes tacticity, molecular-weight distribution, sequence distributions in copolymers, errors in chains such as branches, head- Studies synthesis of polymeric materials, emphasizing interrelationships of chemical pathways, process conditions, and microarchitecture of molecules produced. Chemical pathways include traditional approaches such as anionic polymerization, radical condensation, and ring-opening polymerizations. Other techniques are discussed, including stable free radical polymerizations and atom transfer free radical polymerizations (ARTP), catalytic approaches to well-defined architectures, and polymer functionalization in bulk and at surfaces. Process conditions include bulk, solution, emulsion, suspension, gas phase, and batch vs. continuous fluidized bed. Microarchitecture includes tacticity, molecular-weight distribution, sequence distributions in copolymers, errors in chains such as branches, head-

Subjects

polymer synthesis | polymer synthesis | step growth polymerization | step growth polymerization | free radical chain polymerization | free radical chain polymerization | anionic polymerization | anionic polymerization | cationic polymerization | cationic polymerization | ring-opening polymerization | ring-opening polymerization | ring opening metathesis polymerization (ROMP) | ring opening metathesis polymerization (ROMP) | atom transfer free radical polymerization (ATRP) | atom transfer free radical polymerization (ATRP) | functionalization | functionalization | stable free radical polymerization | stable free radical polymerization | dendrimers | dendrimers | Kevlar | Kevlar | Nylon | Nylon | Teflon | Teflon | DuPont | DuPont | hydrogen bonding | hydrogen bonding | initiators | initiators | iniferter | iniferter | ionic polymerizatioin | ionic polymerizatioin | organic chemistry | organic chemistry | inorganic chemistry | inorganic chemistry | emulsion polymerization | emulsion polymerization | Rempp | Rempp | Merrill | Merrill

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10.520 Molecular Aspects of Chemical Engineering (MIT) 10.520 Molecular Aspects of Chemical Engineering (MIT)

Description

This class covers molecular-level engineering and analysis of chemical processes. The use of chemical bonding, reactivity, and other key concepts in the design and tailoring of organic systems are discussed in this class. Specific class topics include application and development of structure-property relationships, and descriptions of the chemical forces and structural factors that govern supramolecular and interfacial phenomena for molecular and polymeric systems. This class covers molecular-level engineering and analysis of chemical processes. The use of chemical bonding, reactivity, and other key concepts in the design and tailoring of organic systems are discussed in this class. Specific class topics include application and development of structure-property relationships, and descriptions of the chemical forces and structural factors that govern supramolecular and interfacial phenomena for molecular and polymeric systems.

Subjects

molecular-level engineering | molecular-level engineering | analysis of chemical processes | analysis of chemical processes | chemical bonding | chemical bonding | reactivity | reactivity | design of organic systems | design of organic systems | tailoring of organic systems | tailoring of organic systems | application and development of structure-property relationships | application and development of structure-property relationships | descriptions of the chemical forces and structural factors that govern supramolecular and interfacial phenomena for molecular and polymeric systems | descriptions of the chemical forces and structural factors that govern supramolecular and interfacial phenomena for molecular and polymeric systems

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12.491 Advanced Seminar in Geology and Geochemistry: Organic Geochemistry (MIT) 12.491 Advanced Seminar in Geology and Geochemistry: Organic Geochemistry (MIT)

Description

12.491 is a seminar focusing on problems of current interest in geology and geochemistry. For Fall 2005, the topic is organic geochemistry. Lectures and readings cover recent research in the development and properties of organic matter. 12.491 is a seminar focusing on problems of current interest in geology and geochemistry. For Fall 2005, the topic is organic geochemistry. Lectures and readings cover recent research in the development and properties of organic matter.

Subjects

organic geochemistry | organic geochemistry | formation of organic matter | formation of organic matter | geobiology | geobiology | biomarkers | biomarkers | biomarker | biomarker | physiology | physiology | phylogeny | phylogeny | preservation potential | preservation potential | diagenesis | diagenesis | kerogen formation | kerogen formation | hydrocarbon generation | hydrocarbon generation | paleoreconstruction | paleoreconstruction

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5.13 Organic Chemistry II (MIT)

Description

5.13 is an intermediate organic chemistry course that deals primarily with synthesis, structure determination, mechanism, and the relationships between structure and reactivity emphasized. Special topics in organic chemistry are included to illustrate the role of organic chemistry in biological systems, medicine, and in the chemical industry.

Subjects

intermediate organic chemistry | organic | organic molecules | stereochemistry | reaction mechanisms | synthesis of organic compounds | synthesis | structure determination | mechanism | structure | reactivity

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5.13 Organic Chemistry II (MIT)

Description

This intermediate organic chemistry course focuses on the methods used to identify the structure of organic molecules, advanced principles of organic stereochemistry, organic reaction mechanisms, and methods used for the synthesis of organic compounds. Additional special topics include illustrating the role of organic chemistry in biology, medicine, and industry.

Subjects

intermediate organic chemistry | organic molecules | stereochemistry | reaction mechanisms | synthesis of organic compounds | synthesis | structure determination | mechanism | reactivity | functional groups | NMR | spectroscopy | spectrometry | structure elucidation | infrared spectroscopy | nuclear magnetic resonance spectroscopy | reactive intermediates | carbocations | radicals | aromaticity | conjugated systems | molecular orbital theory | pericyclic reactions

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see https://ocw.mit.edu/terms/index.htm

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12.746 Marine Organic Geochemistry (MIT)

Description

This class is designed to provide the student with a global to molecular-level perspective of organic matter cycling in the oceans and marine sediments. Topics include: Organic matter (C,N,P) composition, reactivity and budgets within, and fluxes through, major ocean reservoirs; microbial recycling pathways for organic matter; models of organic matter degradation and preservation; role of anoxia in organic matter burial; relationships between dissolved and particulate (sinking and suspended) organic matter; methods for characterization of sedimentary organic matter; and application of biological markers as tools in oceanography. Both structural and isotopic aspects are covered.

Subjects

Marine | organic geochemistry | distribution | organic carbon | marine sediments | global | molecular-level perspective | mineralization | preservation | OC | major reservoirs | microbial recycling pathways | degradation | anoxia | OC burial | dissolved | sedimentary organic matter | biological markers | oceanography

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see https://ocw.mit.edu/terms/index.htm

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5.13 Organic Chemistry II (MIT)

Description

This intermediate organic chemistry course focuses on the methods used to identify the structure of organic molecules, advanced principles of organic stereochemistry, organic reaction mechanisms, and methods used for the synthesis of organic compounds. Additional special topics include illustrating the role of organic chemistry in biology, medicine, and industry.

Subjects

intermediate organic chemistry | organic molecules | stereochemistry | reaction mechanisms | synthesis of organic compounds | synthesis | structure determination | mechanism | reactivity | functional groups | NMR | spectroscopy | spectrometry | structure elucidation | infrared spectroscopy | nuclear magnetic resonance spectroscopy | reactive intermediates | carbocations | radicals | aromaticity | conjugated systems | molecular orbital theory | pericyclic reactions

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see https://ocw.mit.edu/terms/index.htm

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ásicos de Química ásicos de Química

Description

Resumen de los conceptos básicos de química. Se abordarán los conceptos básicos relacionados con: - La estructura de la materia (estructura atómica y electrónica). - La combinación de los elementos (tipos de compuestos, formulación orgánica e inorgánica, conceptos de mol y masa molar) - Cambios químicos (Disoluciones, medidas de concentración, ecuaciones químicas, estequiometría y concepto de ractivo limitante) - Procesos de equilibrio (Concepto de ácido y base, reacciones de neutralización, concepto de oxidante y reductor, reacciones de oxidación-reducción, ajuste de reacciones redox) Resumen de los conceptos básicos de química. Se abordarán los conceptos básicos relacionados con: - La estructura de la materia (estructura atómica y electrónica). - La combinación de los elementos (tipos de compuestos, formulación orgánica e inorgánica, conceptos de mol y masa molar) - Cambios químicos (Disoluciones, medidas de concentración, ecuaciones químicas, estequiometría y concepto de ractivo limitante) - Procesos de equilibrio (Concepto de ácido y base, reacciones de neutralización, concepto de oxidante y reductor, reacciones de oxidación-reducción, ajuste de reacciones redox)

Subjects

Procesos de equilibrio | Procesos de equilibrio | Quimica Analitica | Quimica Analitica | Cursos Cero | Cursos Cero | Quimica Inorganica | Quimica Inorganica | Estructura de la materia | Estructura de la materia | ón de los elementos | ón de los elementos | ímica general | ímica general | Quimica Fisica | Quimica Fisica | Quimica Organica | Quimica Organica | ímicos | ímicos | 2011 | 2011

License

Copyright 2015, UC3M http://creativecommons.org/licenses/by-nc-sa/4.0/

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Chemistry for Biomedical Engineering Chemistry for Biomedical Engineering

Description

This course summarizes the main aspects of Chemistry for Biomedical Engineers This course summarizes the main aspects of Chemistry for Biomedical Engineers

Subjects

ía Biomédica | ía Biomédica | Molecules | Molecules | Elementary thermodynamics | Elementary thermodynamics | Quimica Analitica | Quimica Analitica | Quimica Inorganica | Quimica Inorganica | Atoms | Atoms | Quimica Fisica | Quimica Fisica | Quimica Organica | Quimica Organica | States of Matter | States of Matter | Equilibrium Reactions | Equilibrium Reactions | Chemical kinetics | Chemical kinetics | 2012 | 2012

License

Copyright 2015, UC3M http://creativecommons.org/licenses/by-nc-sa/4.0/

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