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5,001 to 5,010 of 8,137 Results
Fig.5ef.mat
Dec 11, 2021 - Replication Data for: Ge2Sb2Te5-Based Tunable Perfect Absorber Cavity with Phase Singularity at Visible Frequencies
MATLAB Data - 143.6 MB - MD5: 91d01fe6044b21ed753ea5b0f4c943ee
Fig.5gh.mat
Dec 11, 2021 - Replication Data for: Ge2Sb2Te5-Based Tunable Perfect Absorber Cavity with Phase Singularity at Visible Frequencies
MATLAB Data - 218.7 MB - MD5: f6bb520ed9199bc325bbd2ff27658457
Replication Data for: Large area silver-stibnite nanoporous plasmonic films for label-free biosensing
Dec 10, 2021 - Ranjan SINGH
Kandammathe Valiyaveedu, Sreekanth; Weiling, Dong; Qingling, Ouyang, 2021, "Replication Data for: Large area silver-stibnite nanoporous plasmonic films for label-free biosensing", https://doi.org/10.21979/N9/9XIRAF, DR-NTU (Data), V1
The development of various plasmonic nanoporous materials have attracted much interest in different areas of research including bioengineering and biosensing because of their large surface area and versatile porous structure. Here, we introduce a novel technique for fabricating s...
Fig.2.opj
Dec 10, 2021 - Replication Data for: Large area silver-stibnite nanoporous plasmonic films for label-free biosensing
Unknown - 40.1 KB - MD5: 265b63829b6c5d421e639bcebf49ad6d
Fig.3.opj
Dec 10, 2021 - Replication Data for: Large area silver-stibnite nanoporous plasmonic films for label-free biosensing
Unknown - 37.0 KB - MD5: 767bac4e3b0cb097c7abfbc5269d7b94
Fig.4.opj
Dec 10, 2021 - Replication Data for: Large area silver-stibnite nanoporous plasmonic films for label-free biosensing
Unknown - 53.7 KB - MD5: 4195f72bb54e3737fc107287959f19b6
Fig.5.opj
Dec 10, 2021 - Replication Data for: Large area silver-stibnite nanoporous plasmonic films for label-free biosensing
Unknown - 23.5 KB - MD5: 2818938407df30aee7337257e47705d0
Replication Data for: Phase Change Material-based Low-loss Visible Frequency Hyperbolic Metamaterials for Ultra-sensitive Label-free Biosensing
Dec 7, 2021 - Ranjan SINGH
Sreekanth, Kandammathe Valiyaveedu; Ouyang, Qingling; Sreejith, Sivaramapanicker; Zeng, Shuwen; Lishu, Wu; Ilker, Efe; Dong, Weiling; ElKabbash, Mohamed; Ting, Yu; Lim, Chwee Teck; Hinczewski, Michael; Strangi, Giuseppe; Yong, Ken-Tye; Simpson, Robert E.; Singh, Ranjan, 2021, "Replication Data for: Phase Change Material-based Low-loss Visible Frequency Hyperbolic Metamaterials for Ultra-sensitive Label-free Biosensing", https://doi.org/10.21979/N9/JPRKXS, DR-NTU (Data), V1
Hyperbolic metamaterials (HMMs) have emerged as a burgeoning field of research over the past few years as their dispersion can be easily engineered in different spectral regions using various material combinations. Even though HMMs have comparatively low optical loss due to a sin...
Fig.1.opj
Dec 7, 2021 - Replication Data for: Phase Change Material-based Low-loss Visible Frequency Hyperbolic Metamaterials for Ultra-sensitive Label-free Biosensing
Unknown - 43.7 KB - MD5: efc11844f0c8b5976607bb99aca0abea
Fig.2.opj
Dec 7, 2021 - Replication Data for: Phase Change Material-based Low-loss Visible Frequency Hyperbolic Metamaterials for Ultra-sensitive Label-free Biosensing
Unknown - 73.2 KB - MD5: e42ec4ee6d373d989844027647cea439
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