Ariana Dyer scite author profile

Ariana Dyer

3Publications

0Citation Statements Received

70Citation Statements Given

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Rutgers, The State University of New Jersey

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Virtual Research Group Modules: Scalable Simulations of STEM Research

et al. 2022

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Laboratory research experiences can be an important part of the training process for STEM professionals, but barriers exist that can prevent broad access to these opportunities. Virtual Research Group (VRG) modules, which use data curated from the scientific literature to simulate aspects of the research process, provide a scalable alternative to traditional inlab research experiences. Here we describe the general concept of VRG modules and the implementation of a VRG module focused on block copolymers in both a high school outreach program and an undergraduate materials science course. Through qualitative and quantitative data analysis of student postsurvey responses, we demonstrate that VRG modules effectively simulate many of the attributes of traditional research experiences. We also compare student experiences when VRG modules are offered in three different formats: (i) competitive in-person, (ii) competitive virtual, and (iii) collaborative virtual. Finally, we demonstrate that VRGs can be applied to topics other than block copolymers through implementation of a VRG module on bulk metallic glass.

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Virtual Research Group Modules: Scalable Simulations of STEM Research

Tousley

Dyer

Grzenda

et al. 2022

Preprint

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Laboratory research experiences can be an important part of the training process for STEM professionals, but barriers exist that can prevent broad access to these opportunities. Virtual Research Group (VRG) modules, which use data curated from the scientific literature to simulate aspects of the research process, provide a scalable alternative to traditional in-lab research experiences. Here we describe the general concept of VRG modules and the implementation of a VRG module focused on block copolymers in both a high school outreach program and an undergraduate materials science course. Through qualitative and quantitative data analysis of student post-survey responses, we demonstrate that VRG modules effectively simulate many of the attributes of traditional research experiences. We also compare student experiences when VRG modules are offered in three different formats: (i) competitive in-person, (ii) competitive virtual, and (iii) collaborative virtual. Finally, we demonstrate that VRGs can be applied to topics other than block copolymers through implementation of a VRG module on bulk metallic glass.

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Transition of Virtual Research Group Modules to a Remote Teaching Environment

Dyer¹,

Hughes²,

Tousley³

et al. 2021

Preprint

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Ariana Dyer

Virtual Research Group Modules: Scalable Simulations of STEM Research

Virtual Research Group Modules: Scalable Simulations of STEM Research

Transition of Virtual Research Group Modules to a Remote Teaching Environment

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