DR-NTU (Data)

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Deposit, archive and share your final research data in DR-NTU (Data)

DR-NTU (Data) is for research data deposit. For research paper deposits, please use DR-NTU.

Mission: DR-NTU (Data) curates, stores, preserves, makes available and enables the download of digital data generated by the NTU research community. The repository develops and provides guidance for managing, sharing, and reusing research data to promote responsible data sharing in support of open science and research integrity.

Who can deposit? NTU faculty, research staff and students.

What can be deposited? Final, non-sensitive research data from projects carried out at NTU. The uploaded content must not infringe upon the copyrights or other intellectual property rights, and must be void of all identifiable information.

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Useful links: FAQs | Collection Guidelines | NTU Research Data Management | General terms of use and Privacy policy

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NIE Data Repository (Harvested)

Asian School of the Environment (ASE)

College of Computing and Data Science (CCDS)

Earth Observatory of Singapore (EOS)

Graduate College

Lee Kong Chian School of Medicine

Nanyang Business School (NBS)

School of Art, Design and Media (ADM)

School of Biological Sciences (SBS)

School of Chemistry, Chemical Engineering and Biotechnology (CCEB)

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School of Physical and Mathematical Sciences (SPMS)

School of Social Sciences (SSS)

S. Rajaratnam School of International Studies

Wee Kim Wee School of Communication and Information (WKWSCI)

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65,061 to 65,070 of 72,651 Results

Samroiyotmycin & Analogue bioassay SI for NTU dataverse.docx May 20, 2020 - Replication Data for: Samroiyotmycins - An Interdisciplinary Study of a Novel Anti-malarial Drug MS Word - 88.3 KB - MD5: 444bf198aed4457f8b2c1148c5832a7e DataDocumentation
Replication data for: Shear Wave Measurements of a Gelatin's Young's Modulus May 19, 2020 - Pansino Stephen Gregory Pansino, Stephen Gregory, 2020, "Replication data for: Shear Wave Measurements of a Gelatin's Young's Modulus", https://doi.org/10.21979/N9/35QSJA, DR-NTU (Data), V2 This is a collection of videos showing shear waves travelling through gelatin and associated Matlab scripts, which extract velocity information. Also included are photographs used to show how the gelatin surface deflects due to a load.
Ex11.zip May 19, 2020 - Replication data for: Shear Wave Measurements of a Gelatin's Young's Modulus ZIP Archive - 61.1 MB - MD5: e53437591c2b5297f94d084887eb27f9
Replication Data for: Impact of conductivity on Lorentzian and Fano resonant high-Q THz metamaterials: Superconductor, metal and perfect electric conductor May 15, 2020 - Yogesh Kumar Srivastava Srivastava, Yogesh Kumar; Singh, Ranjan, 2020, "Replication Data for: Impact of conductivity on Lorentzian and Fano resonant high-Q THz metamaterials: Superconductor, metal and perfect electric conductor", https://doi.org/10.21979/N9/AWKV0V, DR-NTU (Data), V1 High temperature superconductors have created exciting opportunities for switchable metamaterial and plasmonic devices operating at terahertz frequencies. In recent times, there have been several demonstrations using superconducting metamaterials, such as thermal, electrical, mag...
Figure 2 a.opj May 15, 2020 - Replication Data for: Impact of conductivity on Lorentzian and Fano resonant high-Q THz metamaterials: Superconductor, metal and perfect electric conductor Unknown - 72.0 KB - MD5: 5873da31518249e0e53363fca7988550 Data
Figure 2 b.opj May 15, 2020 - Replication Data for: Impact of conductivity on Lorentzian and Fano resonant high-Q THz metamaterials: Superconductor, metal and perfect electric conductor Unknown - 68.4 KB - MD5: 4cbc8d5cca929f8be64fbb885b88b0dd Data
Figure 2 c.opj May 15, 2020 - Replication Data for: Impact of conductivity on Lorentzian and Fano resonant high-Q THz metamaterials: Superconductor, metal and perfect electric conductor Unknown - 74.3 KB - MD5: 444924f9d246a313b5dc949df5e4dcc4 Data
Figure 2 d.opj May 15, 2020 - Replication Data for: Impact of conductivity on Lorentzian and Fano resonant high-Q THz metamaterials: Superconductor, metal and perfect electric conductor Unknown - 68.4 KB - MD5: 22811c1e0794ce8df5fc5a36cf1f205f Data
Figure 3 a.opj May 15, 2020 - Replication Data for: Impact of conductivity on Lorentzian and Fano resonant high-Q THz metamaterials: Superconductor, metal and perfect electric conductor Unknown - 79.0 KB - MD5: 12cf24e907e7840dd726dc88e3e56a78 Data
Figure 3 b.opj May 15, 2020 - Replication Data for: Impact of conductivity on Lorentzian and Fano resonant high-Q THz metamaterials: Superconductor, metal and perfect electric conductor Unknown - 79.0 KB - MD5: bbec714f80064e3822c9e83c160c81c4 Data

Samroiyotmycin & Analogue bioassay SI for NTU dataverse.docx

May 20, 2020 - Replication Data for: Samroiyotmycins - An Interdisciplinary Study of a Novel Anti-malarial Drug

MS Word - 88.3 KB -

DataDocumentation

Replication data for: Shear Wave Measurements of a Gelatin's Young's Modulus

May 19, 2020 - Pansino Stephen Gregory

Pansino, Stephen Gregory, 2020, "Replication data for: Shear Wave Measurements of a Gelatin's Young's Modulus", https://doi.org/10.21979/N9/35QSJA, DR-NTU (Data), V2

This is a collection of videos showing shear waves travelling through gelatin and associated Matlab scripts, which extract velocity information. Also included are photographs used to show how the gelatin surface deflects due to a load.

Ex11.zip

May 19, 2020 - Replication data for: Shear Wave Measurements of a Gelatin's Young's Modulus

ZIP Archive - 61.1 MB -

Replication Data for: Impact of conductivity on Lorentzian and Fano resonant high-Q THz metamaterials: Superconductor, metal and perfect electric conductor

May 15, 2020 - Yogesh Kumar Srivastava

Srivastava, Yogesh Kumar; Singh, Ranjan, 2020, "Replication Data for: Impact of conductivity on Lorentzian and Fano resonant high-Q THz metamaterials: Superconductor, metal and perfect electric conductor", https://doi.org/10.21979/N9/AWKV0V, DR-NTU (Data), V1

High temperature superconductors have created exciting opportunities for switchable metamaterial and plasmonic devices operating at terahertz frequencies. In recent times, there have been several demonstrations using superconducting metamaterials, such as thermal, electrical, mag...

Figure 2 a.opj

May 15, 2020 - Replication Data for: Impact of conductivity on Lorentzian and Fano resonant high-Q THz metamaterials: Superconductor, metal and perfect electric conductor

Unknown - 72.0 KB -

Data

Figure 2 b.opj

May 15, 2020 - Replication Data for: Impact of conductivity on Lorentzian and Fano resonant high-Q THz metamaterials: Superconductor, metal and perfect electric conductor

Unknown - 68.4 KB -

Data

Figure 2 c.opj

May 15, 2020 - Replication Data for: Impact of conductivity on Lorentzian and Fano resonant high-Q THz metamaterials: Superconductor, metal and perfect electric conductor

Unknown - 74.3 KB -

Data