Institution
University of Wisconsin–Milwaukee
Education•Milwaukee, Wisconsin, United States•
About: University of Wisconsin–Milwaukee is a education organization based out in Milwaukee, Wisconsin, United States. It is known for research contribution in the topics: Population & Gravitational wave. The organization has 11839 authors who have published 28034 publications receiving 936438 citations. The organization is also known as: UWM & University of Wisconsin-Milwaukee.
Topics: Population, Gravitational wave, Poison control, LIGO, Health care
Papers published on a yearly basis
Papers
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TL;DR: In this article, a new gas-sensing platform for low-concentration gases (NO, H, and CO) comprises discrete SnO{sub 2} nanocrystals uniformly distributed on the surface of multiwalled carbon nanotubes (CNTs).
Abstract: A new gas-sensing platform for low-concentration gases (NO{sub 2}, H{sub 2}, and CO) comprises discrete SnO{sub 2} nanocrystals uniformly distributed on the surface of multiwalled carbon nanotubes (CNTs). The resulting hybrid nanostructures are highly sensitive, even at room temperature, because their gas sensing abilities rely on electron transfer between the nanocrystals and the CNTs.
285 citations
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University of Wisconsin-Madison1, University of Wisconsin–Milwaukee2, University of Waterloo3, Virginia Tech4, Dartmouth College5, Michigan State University6, Queen's University7, University of Georgia8, University of California, Santa Barbara9, Iowa State University10, University of California, Davis11, Universidad Nacional del Sur12, Institute of Ecosystem Studies13
TL;DR: It is found that in Midwest and Northeast North America, most urban lakes and rural lakes that are surrounded by >1% impervious land cover show increasing chloride trends, and many lakes will exceed the aquatic life threshold criterion for chronic chloride exposure in the next 50 y if current trends continue.
Abstract: The highest densities of lakes on Earth are in north temperate ecosystems, where increasing urbanization and associated chloride runoff can salinize freshwaters and threaten lake water quality and the many ecosystem services lakes provide. However, the extent to which lake salinity may be changing at broad spatial scales remains unknown, leading us to first identify spatial patterns and then investigate the drivers of these patterns. Significant decadal trends in lake salinization were identified using a dataset of long-term chloride concentrations from 371 North American lakes. Landscape and climate metrics calculated for each site demonstrated that impervious land cover was a strong predictor of chloride trends in Northeast and Midwest North American lakes. As little as 1% impervious land cover surrounding a lake increased the likelihood of long-term salinization. Considering that 27% of large lakes in the United States have >1% impervious land cover around their perimeters, the potential for steady and long-term salinization of these aquatic systems is high. This study predicts that many lakes will exceed the aquatic life threshold criterion for chronic chloride exposure (230 mg L-1), stipulated by the US Environmental Protection Agency (EPA), in the next 50 y if current trends continue.
285 citations
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TL;DR: In this article, the authors presented a survey regarding published papers on why the microgrid is required, and what the components and control systems are which constitute the actual microgrid studies, and proposed a standard microgrid for better power quality and optimizing energy generation.
284 citations
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TL;DR: Graphene nanosheets standing vertically on a current collector can work as numerous electrically conductive bridges to facilitate charge transport and mitigate the constriction/spreading resistance at the interface between the active material and the current collector.
Abstract: Dense networks of graphene nanosheets standing vertically on a current collector can work as numerous electrically conductive bridges to facilitate charge transport and mitigate the constriction/spreading resistance at the interface between the active material and the current collector. The vertically oriented graphene-bridged supercapacitors present excellent rate and power capabilities.
284 citations
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National Institute for Health Research1, Harvard University2, Montreal Heart Institute3, University of North Carolina at Chapel Hill4, Wellcome Trust Sanger Institute5, VA Boston Healthcare System6, Osaka University7, Icahn School of Medicine at Mount Sinai8, University of Wisconsin–Milwaukee9, Kyushu University10, University of Washington11, University of Bristol12, University of Copenhagen13, Erasmus University Medical Center14, National Institutes of Health15, Veterans Health Administration16, Kaiser Permanente17, International Agency for Research on Cancer18, Wake Forest University19, Imperial College London20, Broad Institute21, Greifswald University Hospital22, University of Pennsylvania23, British Heart Foundation24, Fred Hutchinson Cancer Research Center25, Chinese National Human Genome Center26, Technische Universität München27, University of Tampere28, University of Tokyo29, University of Ioannina30, University of Colorado Denver31, Duke University32, University of Virginia33, University of Minnesota34, Turku University Hospital35, Los Angeles Biomedical Research Institute36, Stanford University37, Mashhad University of Medical Sciences38, NHS Blood and Transplant39, Brigham and Women's Hospital40, University of Oxford41, University of Liège42, European Bioinformatics Institute43, John Radcliffe Hospital44
TL;DR: The results show the power of large-scale blood cell trait GWAS to interrogate clinically meaningful variants across a wide allelic spectrum of human variation.
284 citations
Authors
Showing all 11948 results
Name | H-index | Papers | Citations |
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Caroline S. Fox | 155 | 599 | 138951 |
Mark D. Griffiths | 124 | 1238 | 61335 |
Benjamin William Allen | 124 | 807 | 87750 |
James A. Dumesic | 118 | 615 | 58935 |
Richard O'Shaughnessy | 114 | 462 | 77439 |
Patrick Brady | 110 | 442 | 73418 |
Laura Cadonati | 109 | 450 | 73356 |
Stephen Fairhurst | 109 | 426 | 71657 |
Benno Willke | 109 | 508 | 74673 |
Benjamin J. Owen | 108 | 351 | 70678 |
Kenneth H. Nealson | 108 | 483 | 51100 |
P. Ajith | 107 | 372 | 70245 |
Duncan A. Brown | 107 | 567 | 68823 |
I. A. Bilenko | 105 | 393 | 68801 |
F. Fidecaro | 105 | 569 | 74781 |