43,401 research outputs found

    Identification of positive selection in pigs by comparing linkage disequilibrium variances.

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    Supplementary data for publication: Xiuling Li, Songbai Yang, Kunzhe Dong, Zhonglin Tang, Kui Li, Bin Fan, Zhiquan Wang and Bang Liu. (2017). Identification of positive selection in pigs by comparing linkage disequilibrium variances. Animal Genetics, 48(5), 600-60

    Identification of positive selection in pigs by comparing linkage disequilibrium variances.

    No full text
    Supplementary data for publication: Xiuling Li, Songbai Yang, Kunzhe Dong, Zhonglin Tang, Kui Li, Bin Fan, Zhiquan Wang and Bang Liu. (2017). Identification of positive selection in pigs by comparing linkage disequilibrium variances. Animal Genetics, 48(5), 600-60

    Identification of positive selection in pigs by comparing linkage disequilibrium variances.

    No full text
    Supplementary data for publication: Xiuling Li, Songbai Yang, Kunzhe Dong, Zhonglin Tang, Kui Li, Bin Fan, Zhiquan Wang and Bang Liu. (2017). Identification of positive selection in pigs by comparing linkage disequilibrium variances. Animal Genetics, 48(5), 600-60

    Self-rolled-up membrane (S-RuM) capacitors and filters for radio frequency communication

    No full text
    Self-rolled-up membrane (S-RuM) is a novel technology to build precisely controllable three- dimensional (3D) micro-structures. This technology finds wide applications in passive electronics, photonics, and neural interfaces, and achieves great device size reduction and performance enhancement. For passive electronics, devices based on S-RuM utilize electromagnetic energy well- confined in the device tubular cavity with extremely high efficiency, and break the footprint and parasitic effect limit set by conventional planar devices. S-RuM inductors and capacitors can reach self- resonant frequency up to 60 GHz, Q factor up to 80, and with footprint one hundredth that of the state- of-the-art 2D counterparts. This thesis illustrates the working mechanism of S-RuM technology first, and then introduces S-RuM passive electronic devices for radio frequency (RF) application. Current approaches to improve RF passive device performance are discussed. Designs of capacitors and filters based on S-RuM are demonstrated, followed by simulation and lab measurement results. Challenges associated with S-RuM passive electronics are addressed and solutions are proposed. Future work and potential wearable device applications are summarized.Submission published under a 24 month embargo labeled 'Closed Access', the embargo will last until 2019-12-01The student, Moyang Li, accepted the attached license on 2017-12-15 at 09:32.The student, Moyang Li, submitted this Thesis for approval on 2017-12-15 at 09:45.This Thesis was approved for publication on 2017-12-15 at 09:53.DSpace SAF Submission Ingestion Package generated from Vireo submission #11992 on 2018-03-13 at 10:38:29Made available in DSpace on 2018-03-13T17:35:58Z (GMT). No. of bitstreams: 2 LI-THESIS-2017.pdf: 5734899 bytes, checksum: b43ef276b84fb33584807008ed008278 (MD5) LICENSE.txt: 4206 bytes, checksum: fd8709b8106b4e3db45b887b541c0747 (MD5) Previous issue date: 2017-12-15Embargo set by: Seth Robbins for item 105509 Lift date: 2020-03-13T17:36:05Z Reason: Author requested closed access (OA after 2yrs) in Vireo ETD systemLimited Restriction Lifted for Item 105509 on 2020-03-14T09:15:22Z

    Supplementary data - Supplemental material for Study in Pesticide Activities of <i>Polygonum cuspidatum</i> Extracts and its Active Ingredient Resveratrol

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    Supplemental material, Supplementary data, for Study in Pesticide Activities of Polygonum cuspidatum Extracts and its Active Ingredient Resveratrol by Wenqiang Yang, Fenglu Li, Xiaoyi Xing, Zhen Wang, and Xiuling Yu in Natural Product Communications</p

    Assessment of Self-Archiving in Institutional Repositories: Depositorship and Full-Text Availability

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    This research evaluates the success of open access self-archiving in several well-known institutional repositories. Two assessment factors have been applied to examine the current practice of self-archiving: depositorship and the availability of full text. This research discovers that the rate of author self-archiving is low and that the majority of documents have been deposited by a librarian or administrative staff. Similarly, the rate of full-text availability is relatively low, except for Australian repositories. By identifying different practices of self-archiving, repository managers can create new strategies for the operation of their repositories and the development of archiving policies

    Metal-assisted chemical etching of 4H silicon carbide

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    Metal-assisted chemical etching (MacEtch) is a wet etching method that can produce high aspect ratio nanostructures with minimal crystal damage. The MacEtch process has been demonstrated to overcome limitations of dry and wet etching in several materials, studied extensively since its discovery by Li and Bohn in 2000. These include several semiconductor substrates (Si, GaAs, InP, GaP, GaN, Ga2O3, and SiC) and catalysts (Au, Ag, Pt, Pd, graphene, Cu), each demonstrated with different degrees of anisotropy, porosity, and etching conditions. SiC has only ever been demonstrated to etch with a porous layer generated using a wet etching method. This is a serious limitation for its applicability to a wider range of etching applications. In this thesis, nanoscale nonporous wet etching is demonstrated on 4H-SiC. Both photolithography and nanosphere lithography are used to pattern the substrate, being compared in etch quality and characteristics. Control of porosity and etch rate are presented, with a mechanism analysis provided to complement the explanations in the literature.Submission published under a 24 month embargo labeled 'Closed Access', the embargo will last until 2022-05-01The student, Julian Michaels, accepted the attached license on 2020-05-12 at 13:11.The student, Julian Michaels, submitted this Thesis for approval on 2020-05-12 at 13:24.This Thesis was approved for publication on 2020-05-12 at 16:36.DSpace SAF Submission Ingestion Package generated from Vireo submission #15354 on 2020-08-25 at 17:44:23Made available in DSpace on 2020-08-27T00:51:32Z (GMT). No. of bitstreams: 2 MICHAELS-THESIS-2020.pdf: 1453595 bytes, checksum: 696e06218750c1f2d7f31337ad1ee5b3 (MD5) LICENSE.txt: 4212 bytes, checksum: 8731fbe7c41f67cf8d2c801bc8a1da9c (MD5) Previous issue date: 2020-05-12Embargo set by: Seth Robbins for item 115962 Lift date: 2022-08-27T00:51:40Z Reason: Author requested closed access (OA after 2yrs) in Vireo ETD systemAuthor requested closed access (OA after 2yrs) in Vireo ETD systemLimite

    Information Literacy and Librarian-Faculty Collaboration: A Model for Success:

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    In the age of information explosion and technological advancement, issues of information storage, organization, access, and evaluation have become necessarily important in our societies. Addressing issues of information literacy and designing how they can be best integrated in students' learning process are of critical importance. Library professionals in the United States, particularly in the academia, have realized the importance of information literacy and have attempted in various ways to address these issues. The ultimate goal is to make information literacy an integral part of the academic curriculum, thus helping students to succeed not only during their years in college but also for their lifelong career choices. This article will look at ways of how information literacy can best be incorporated into students' academic experience, and how this process can make students' learning meaningful and successful. Specifically, the author will examine the model of librarian-faculty collaboration in integrating information literacy into the curriculum, as demonstrated in the Ohio Five Colleges' Information Literacy Program.Publisher version of this article is available at: http://www.white-clouds.com/iclc/cliej/cl24.ht

    sj-docx-1-eae-10.1177_0958305X221133263 - Supplemental material for Hydrocarbon regulation and lower temperature pyrolysis of balikun oil shale kerogen

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    Supplemental material, sj-docx-1-eae-10.1177_0958305X221133263 for Hydrocarbon regulation and lower temperature pyrolysis of balikun oil shale kerogen by Fei Liu, Weiguang Shi, Tianbao Liu, Wei Li, Liang Sun, Xiangbin Liu, Changming Zhao, Benxian Li, Sunhua Deng, Zhaohui Dong, Chengwu Xu, Xiaofei Fu and Xiuling Yan in Energy & Environment</p

    Self-rolled-up membrane (S-RuM) capacitors and filters for radio frequency communication

    No full text
    Self-rolled-up membrane (S-RuM) is a novel technology to build precisely controllable three- dimensional (3D) micro-structures. This technology finds wide applications in passive electronics, photonics, and neural interfaces, and achieves great device size reduction and performance enhancement. For passive electronics, devices based on S-RuM utilize electromagnetic energy well- confined in the device tubular cavity with extremely high efficiency, and break the footprint and parasitic effect limit set by conventional planar devices. S-RuM inductors and capacitors can reach self- resonant frequency up to 60 GHz, Q factor up to 80, and with footprint one hundredth that of the state- of-the-art 2D counterparts. This thesis illustrates the working mechanism of S-RuM technology first, and then introduces S-RuM passive electronic devices for radio frequency (RF) application. Current approaches to improve RF passive device performance are discussed. Designs of capacitors and filters based on S-RuM are demonstrated, followed by simulation and lab measurement results. Challenges associated with S-RuM passive electronics are addressed and solutions are proposed. Future work and potential wearable device applications are summarized
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