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132 results on '"Kramer, John W."'

1. Novel Strategy for Photopatterning Emissive Polymer Brushes for Organic Light Emitting Diode Applications

Author

Page, Zachariah A, Narupai, Benjaporn, Pester, Christian W, Zerdan, Raghida Bou, Sokolov, Anatoliy, Laitar, David S, Mukhopadhyay, Sukrit, Sprague, Scott, McGrath, Alaina J, Kramer, John W, Trefonas, Peter, and Hawker, Craig J

Subjects
Chemical Sciences
Abstract

A light-mediated methodology to grow patterned, emissive polymer brushes with micron feature resolution is reported and applied to organic light emitting diode (OLED) displays. Light is used for both initiator functionalization of indium tin oxide and subsequent atom transfer radical polymerization of methacrylate-based fluorescent and phosphorescent iridium monomers. The iridium centers play key roles in photocatalyzing and mediating polymer growth while also emitting light in the final OLED structure. The scope of the presented procedure enables the synthesis of a library of polymers with emissive colors spanning the visible spectrum where the dopant incorporation, position of brush growth, and brush thickness are readily controlled. The chain-ends of the polymer brushes remain intact, affording subsequent chain extension and formation of well-defined diblock architectures. This high level of structure and function control allows for the facile preparation of random ternary copolymers and red-green-blue arrays to yield white emission.

Published
2017

2. Chemoselective Radical Dehalogenation and C–C Bond Formation on Aryl Halide Substrates Using Organic Photoredox Catalysts

Author

Poelma, Saemi O, Burnett, G Leslie, Discekici, Emre H, Mattson, Kaila M, Treat, Nicolas J, Luo, Yingdong, Hudson, Zachary M, Shankel, Shelby L, Clark, Paul G, Kramer, John W, Hawker, Craig J, and de Alaniz, Javier Read

Subjects
Carbon, Catalysis, Free Radicals, Halogenation, Hydrocarbons, Halogenated, Photochemical Processes, Medicinal and Biomolecular Chemistry, Organic Chemistry
Abstract

Despite the number of methods available for dehalogenation and carbon-carbon bond formation using aryl halides, strategies that provide chemoselectivity for systems bearing multiple carbon-halogen bonds are still needed. Herein, we report the ability to tune the reduction potential of metal-free phenothiazine-based photoredox catalysts and demonstrate the application of these catalysts for chemoselective carbon-halogen bond activation to achieve C-C cross-coupling reactions as well as reductive dehalogenations. This procedure works both for conjugated polyhalides as well as unconjugated substrates. We further illustrate the usefulness of this protocol by intramolecular cyclization of a pyrrole substrate, an advanced building block for a family of natural products known to exhibit biological activity.

Published
2016

3. Metal-Free Atom Transfer Radical Polymerization

Author

Treat, Nicolas J, Sprafke, Hazel, Kramer, John W, Clark, Paul G, Barton, Bryan E, de Alaniz, Javier Read, Fors, Brett P, and Hawker, Craig J

Subjects
Chemical Sciences, General Chemistry
Abstract

Overcoming the challenge of metal contamination in traditional ATRP systems, a metal-free ATRP process, mediated by light and catalyzed by an organic-based photoredox catalyst, is reported. Polymerization of vinyl monomers are efficiently activated and deactivated with light leading to excellent control over the molecular weight, polydispersity, and chain ends of the resulting polymers. Significantly, block copolymer formation was facile and could be combined with other controlled radical processes leading to structural and synthetic versatility. We believe that these new organic-based photoredox catalysts will enable new applications for controlled radical polymerizations and also be of further value in both small molecule and polymer chemistry.

Published
2014

4. Controlled Radical Polymerization of Acrylates Regulated by Visible Light.

Author

Treat, Nicolas J, Fors, Brett P, Kramer, John W, Christianson, Matthew, Chiu, Chien-Yang, Read de Alaniz, Javier, and Hawker, Craig J

Subjects
Macromolecular and Materials Chemistry, Physical Chemistry (incl. Structural)
Abstract

The controlled radical polymerization of a variety of acrylate monomers is reported using an Ir-catalyzed visible light mediated process leading to well-defined homo-, random, and block copolymers. The polymerizations could be efficiently activated and deactivated using light while maintaining a linear increase in molecular weight with conversion and first order kinetics. The robust nature of the fac-[Ir(ppy)3] catalyst allows carboxylic acids to be directly introduced at the chain ends through functional initiators or along the backbone of random copolymers (controlled process up to 50 mol % acrylic acid incorporation). In contrast to traditional ATRP procedures, low polydispersity block copolymers, poly(acrylate)-b-(acrylate), poly(methacrylate)-b-(acrylate), and poly(acrylate)-b-(methacrylate), could be prepared with no monomer sequence requirements. These results illustrate the increasing generality and utility of light mediated Ir-catalyzed polymerization as a platform for polymer synthesis.

Published
2014

5. Fabrication of Unique Chemical Patterns and Concentration Gradients with Visible Light

Author

Fors, Brett P, Poelma, Justin E, Menyo, Matthew S, Robb, Maxwell J, Spokoyny, Daniel M, Kramer, John W, Waite, J Herbert, and Hawker, Craig J

Subjects
Chemical Sciences, General Chemistry
Abstract

A modular and general method based on a photomediated ATRA reaction for the spatially controlled functionalization of surfaces with visible light is reported. The ability to control reactivity with light intensity combined with the orthogonality of ATRA chemistry allows well-defined chemically differentiated monolayers and complex nonlinear chemical concentration gradients to be easily prepared. Use of light to mediate these reactions permits spatial regulation and the generation of unique, multifunctional chemical gradients.

Published
2013

8. Polymerization of enantiopure monomers using syndiospecific catalysts: a new approach to sequence control in polymer synthesis

Author

Kramer, John W., Treitler, Daniel S., Dunn, Erin W., Castro, Pascal M., Roisnel, Thierry, Thomas, Christophe M., and Coates, Geoffrey W.

Subjects
Catalysis -- Analysis, Cyanobacteria -- Physiological aspects, Elimination reactions -- Analysis, Organosulfur compounds -- Structure, Organosulfur compounds -- Chemical properties, Polyesters -- Structure, Polyesters -- Chemical properties, Polymerization -- Analysis, Yttrium -- Chemical properties, Chemistry
Abstract

The ring-opening polymerization of a mixture of enantiomerically pure but different monomers to yield the corresponding highly alternating polyester is reported. The reaction is carried out room temperature in presence of yttrium complex as initiator.

Published
2009

9. Highly Photoluminescent Nonconjugated Polymers for Single-Layer Light Emitting Diodes

Author

Page, Zachariah A., primary, Chiu, Chien-Yang, additional, Narupai, Benjaporn, additional, Laitar, David S., additional, Mukhopadhyay, Sukrit, additional, Sokolov, Anatoliy, additional, Hudson, Zachary M., additional, Bou Zerdan, Raghida, additional, McGrath, Alaina J., additional, Kramer, John W., additional, Barton, Bryan E., additional, and Hawker, Craig J., additional

Published
2017
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13. List of Contributors

Author

Bartley, Jack C., primary, Brobst, Duane F., additional, Cardinet, George H., additional, Coles, Embert H., additional, Cornelius, Charles E., additional, Dodds, W. Jean, additional, Edqvist, Lars-Eric, additional, Finco, Delmar R., additional, Hornbuckle, William E., additional, Kaneko, Jiro J., additional, Kramer, John W., additional, Perman, Victor, additional, Simesen, Mogens G., additional, Stabenfeldt, George H., additional, Stephens-Orvis, Julia, additional, Tasker, John B., additional, Tennant, Bud C., additional, and Wilkinson, John S., additional

Published
1980
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15. Contributors

Author

Bartley, Jack C., primary, Brobst, Duane F., additional, Cardinet, George H., additional, Coles, Embert H., additional, Cornelius, Charles E., additional, Dodds, W. Jean, additional, Edqvist, Lars-Eric, additional, Finco, Delmar R., additional, Hornbuckle, William E., additional, Kaneko, Jiro J., additional, Kramer, John W., additional, Perman, Victor, additional, Simesen, Mogens G., additional, Stabenfeldt, George H., additional, Stephens-Orvis, Julia, additional, Tasker, John B., additional, Tennant, Bud C., additional, and Wilkinson, John S., additional

Published
1980
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17. New materials and processes for directed self-assembly

Author

Chang, Shih-wei, primary, Evans, Jessica P., additional, Ge, Shouren, additional, Ginzburg, Valeriy V., additional, Kramer, John W., additional, Landes, Brian, additional, Lee, Christopher, additional, Meyers, Greg F., additional, Murray, Daniel J., additional, Park, Jong, additional, Sharma, Rahul, additional, Trefonas, Peter, additional, Weinhold, Jeffrey D., additional, Zhang, Jieqian, additional, and Hustad, Phillip D., additional

Published
2013
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18. Designing new materials and processes for directed self-assembly applications

Author

Chang, Shih-Wei, primary, Vogel, Erin E., additional, Ginzburg, Valeriy V., additional, Murray, Daniel J., additional, Kramer, John W., additional, Weinhold, Jeffrey D., additional, Chuang, Vivian P. W., additional, Sharma, Rahul, additional, Evans, Jessica P., additional, Landes, Brian, additional, Ge, Shouren, additional, Trefonas, Peter, additional, and Hustad, Phillip D., additional

Published
2012
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19. Small-molecule inhibition of APT1 affects Ras localization and signaling

Author

Dekker, Frank J, primary, Rocks, Oliver, additional, Vartak, Nachiket, additional, Menninger, Sascha, additional, Hedberg, Christian, additional, Balamurugan, Rengarajan, additional, Wetzel, Stefan, additional, Renner, Steffen, additional, Gerauer, Marc, additional, Schölermann, Beate, additional, Rusch, Marion, additional, Kramer, John W, additional, Rauh, Daniel, additional, Coates, Geoffrey W, additional, Brunsveld, Luc, additional, Bastiaens, Philippe I H, additional, and Waldmann, Herbert, additional

Published
2010
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35. New materials and processes for directed self-assembly

Author

Tong, William M., Resnick, Douglas J., Chang, Shih-wei, Evans, Jessica P., Ge, Shouren, Ginzburg, Valeriy V., Kramer, John W., Landes, Brian, Lee, Christopher, Meyers, Greg F., Murray, Daniel J., Park, Jong, Sharma, Rahul, Trefonas, Peter, Weinhold, Jeffrey D., Zhang, Jieqian, and Hustad, Phillip D.

Published
2013
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36. Designing new materials and processes for directed self-assembly applications

Author

Chang, Shih-Wei, Vogel, Erin E., Ginzburg, Valeriy V., Murray, Daniel J., Kramer, John W., Weinhold, Jeffrey D., Chuang, Vivian P. W., Sharma, Rahul, Evans, Jessica P., Landes, Brian, Ge, Shouren, Trefonas III, Peter, and Hustad, Phillip D.

Abstract

Directed self-assembly (DSA) of block copolymers (BCPs) is a promising technology for advanced patterning at future technology nodes, but significant hurdles remain for commercial implementation. The most widely studied material for DSA is poly(styrene-block-methyl methacrylate) (PS-PMMA), but this material has a relatively weak segregation strength that has limited its utility to patterns above 24 nm pitch. This paper reports on some of Dow's efforts to develop new materials capable of extending DSA to smaller pitch by development of new BCP copolymer materials with stronger segregation strength. Some preliminary efforts are reported on new substrate treatments that stabilize perpendicular orientations in a high- block copolymer that also incorporate an etch-resistant block to facilitate patterning at small dimensions. In addition, development of new block copolymer materials that have a -parameter that is large enough to drive defect reduction and but not so high that it precludes thermal annealing are also presented. DSA of these new materials is demonstrated using thermal annealing processes at pitch ranging from 40 to 16 nm, and etch capability is also demonstrated on a material with 18 nm pitch. These technologies hold promise for the extension of DSA to sub 24 nm pitch.

Published
2012
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39. β-Amidoaldehydes viaoxazoline hydroformylationElectronic supplementary information (ESI) available: Experimental procedures, characterization data for all new compounds, and X-ray tabular data for 3. CCDC 739579. For ESI and crystallographic data in CIF or other electronic format see DOI: 10.1039/b913698cThis article is part of a ChemComm ‘Catalysis in Organic Synthesis’ web-theme issue showcasing high quality research in organic chemistry. Please see our website (http://www.rsc.org/chemcomm/organicwebtheme2009) to access the other papers in this issue.

Author

Laitar, David S., Kramer, John W., Whiting, Bryan T., Lobkovsky, Emil B., and Coates, Geoffrey W.

Subjects
*ALDEHYDES, *OXAZOLES, *HYDROFORMYLATION, *CRYSTALLOGRAPHY, *ORGANIC synthesis, *AMINO acids, *METAL catalysts, *COBALT compounds
Abstract

4-Substituted oxazolines, which are readily synthesized from naturally occurring α-amino acids, are converted efficiently and stereospecifically to β-amidoaldehydes in the presence of synthesis gas and catalytic dicobalt octacarbonyl. [ABSTRACT FROM AUTHOR]

Published
2009
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49. "CHARITY.".

Author

KRAMER, JOHN W.

Published
1873

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