Energy Research Institute @ NTU

Established in June 2010, the Energy Research Institute @NTU (ERI@N) distinguishes itself through excellence in basic research directed towards outcomes of high industry relevance, with focus on systems-level research for tropical megacities.

It achieves this via seven Interdisciplinary Research Programmes (IRP) and two Flagship Programmes that covers the energy value chain from generation, transmission to end use. The IRPs address research covering the domains of renewables, low carbon generation along with energy storage and fuel cells; renewables integration, multi-energy systems and grids; sustainable buildings, future mobility solutions and maritime clean energy.

The two flagship projects, EcoCampus and Renewable Energy Integration Demonstrator Singapore (REIDS) serve as strong “Living Lab” platforms to engage industry developed innovation, focusing on solutions that achieves energy efficiency and renewable energy integration into smart micro grids, respectively.

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1,231 to 1,240 of 1,670 Results

Fig.5c.opju May 3, 2020 - Realizing reduced imperfections via quantum dots interdiffusion in high efficiency perovskite solar cells Unknown - 58.3 KB - MD5: 504b9384c5ac551d41d58ec25393bf3e
Fig.5c.png May 3, 2020 - Realizing reduced imperfections via quantum dots interdiffusion in high efficiency perovskite solar cells PNG Image - 48.1 KB - MD5: 69eaa6e6037eaacddc2adab87dd54dc0
Fig.5d.png May 3, 2020 - Realizing reduced imperfections via quantum dots interdiffusion in high efficiency perovskite solar cells PNG Image - 783.1 KB - MD5: 7025063333502747eb61cecfd27c37c8
FigS.pptx May 3, 2020 - Realizing reduced imperfections via quantum dots interdiffusion in high efficiency perovskite solar cells MS Powerpoint - 3.7 MB - MD5: e430fbca9a266ffaebe3ebc46062de98
13C_v4.png Apr 28, 2020 - Replication Data for: Self-assembly of a robust hydrogen-bonded octylphosphonate network on cesium lead bromide perovskite nanocrystals for light-emitting diodes PNG Image - 52.0 KB - MD5: 55a75ff5c0243e100b30c172b7433044 The 13C cross-polarisation magic-angle spinning (CPMAS) NMR spectra of crystalline OPA and TOPO, and each CsPbBr3 NC sample.
1HNMR_v2-01.png Apr 28, 2020 - Replication Data for: Self-assembly of a robust hydrogen-bonded octylphosphonate network on cesium lead bromide perovskite nanocrystals for light-emitting diodes PNG Image - 74.0 KB - MD5: 26d58fb198acd6ee0763517d51dcbd05 Solution 1H NMR spectra of each CsPbBr3 NC solution. Asterisks (*) denote residual proton signals from the solvent (toluene-d8, toluene) and the antisolvents (ethyl acetate and acetonitrile). Observable broad resonances corresponding to protons in oleyl and octyl chains of the re...
Figure 1.png Apr 28, 2020 - Replication Data for: Self-assembly of a robust hydrogen-bonded octylphosphonate network on cesium lead bromide perovskite nanocrystals for light-emitting diodes PNG Image - 3.5 MB - MD5: 5773900f934216d569afc44a8d05c877 CsPbBr3 NC characterization. (a) NC edge length distribution derived from small-angle X-ray scattering (SAXS). Inset: Photograph of OPA-2w CsPbBr3 NC dispersion (b) transmission electron microscopy image and (c) absorbance and PL spectra (λex = 365 nm), of an OPA-2w NC dispersion...
Figure 2 Nanoscale.png Apr 28, 2020 - Replication Data for: Self-assembly of a robust hydrogen-bonded octylphosphonate network on cesium lead bromide perovskite nanocrystals for light-emitting diodes PNG Image - 492.4 KB - MD5: fa161ee304553327e08489559f44fe1f 31P–1H HETCOR ssNMR spectra of (a) crystalline OPA reference, (b) CsPbBr3 NCs treated with OPA after ethyl acetate and (c) acetonitrile purification cycles, and (d) unpurified CsPbBr3 NCs synthesized using OPA and TOPO. The 1D 31P MAS NMR spectrum is shown above each 2D HETCOR sp...
Figure 3.png Apr 28, 2020 - Replication Data for: Self-assembly of a robust hydrogen-bonded octylphosphonate network on cesium lead bromide perovskite nanocrystals for light-emitting diodes PNG Image - 859.7 KB - MD5: 19d9099cfcc090278b32a3e6bd504ff9 CsPbBr3 NC LED device characteristics. (a) Band diagram, (b) current–voltage–luminance, (c) EQE/current efficiency against current density, and (d) power efficiency against luminance plots. CON denotes reference NC inks, OPA denotes OPA-treated inks; 1w and 2w denotes inks washed...
FTIR.png Apr 28, 2020 - Replication Data for: Self-assembly of a robust hydrogen-bonded octylphosphonate network on cesium lead bromide perovskite nanocrystals for light-emitting diodes PNG Image - 2.1 MB - MD5: baadb11acd75f05c0cef0dd320898496 ATR FTIR spectra. (a) REF (solid) and OPA (dashed) NC samples for purified once (black) and twice (red). The C−O stretching region is shown. (b) Crystalline OPA (blue) and OPA NC samples after one purified cycle with 2:1 ethyl acetate (black) and after a second purification cycle...

Fig.5c.opju

May 3, 2020 - Realizing reduced imperfections via quantum dots interdiffusion in high efficiency perovskite solar cells

Unknown - 58.3 KB -

Fig.5c.png

May 3, 2020 - Realizing reduced imperfections via quantum dots interdiffusion in high efficiency perovskite solar cells

PNG Image - 48.1 KB -

Fig.5d.png

May 3, 2020 - Realizing reduced imperfections via quantum dots interdiffusion in high efficiency perovskite solar cells

PNG Image - 783.1 KB -

FigS.pptx

May 3, 2020 - Realizing reduced imperfections via quantum dots interdiffusion in high efficiency perovskite solar cells

MS Powerpoint - 3.7 MB -

13C_v4.png

Apr 28, 2020 - Replication Data for: Self-assembly of a robust hydrogen-bonded octylphosphonate network on cesium lead bromide perovskite nanocrystals for light-emitting diodes

PNG Image - 52.0 KB -

The 13C cross-polarisation magic-angle spinning (CPMAS) NMR spectra of crystalline OPA and TOPO, and each CsPbBr3 NC sample.

1HNMR_v2-01.png

Apr 28, 2020 - Replication Data for: Self-assembly of a robust hydrogen-bonded octylphosphonate network on cesium lead bromide perovskite nanocrystals for light-emitting diodes

PNG Image - 74.0 KB -

Solution 1H NMR spectra of each CsPbBr3 NC solution. Asterisks (*) denote residual proton signals from the solvent (toluene-d8, toluene) and the antisolvents (ethyl acetate and acetonitrile). Observable broad resonances corresponding to protons in oleyl and octyl chains of the re...

Figure 1.png

Apr 28, 2020 - Replication Data for: Self-assembly of a robust hydrogen-bonded octylphosphonate network on cesium lead bromide perovskite nanocrystals for light-emitting diodes

PNG Image - 3.5 MB -

CsPbBr3 NC characterization. (a) NC edge length distribution derived from small-angle X-ray scattering (SAXS). Inset: Photograph of OPA-2w CsPbBr3 NC dispersion (b) transmission electron microscopy image and (c) absorbance and PL spectra (λex = 365 nm), of an OPA-2w NC dispersion...

Figure 2 Nanoscale.png

Apr 28, 2020 - Replication Data for: Self-assembly of a robust hydrogen-bonded octylphosphonate network on cesium lead bromide perovskite nanocrystals for light-emitting diodes

PNG Image - 492.4 KB -

31P–1H HETCOR ssNMR spectra of (a) crystalline OPA reference, (b) CsPbBr3 NCs treated with OPA after ethyl acetate and (c) acetonitrile purification cycles, and (d) unpurified CsPbBr3 NCs synthesized using OPA and TOPO. The 1D 31P MAS NMR spectrum is shown above each 2D HETCOR sp...

Figure 3.png

Apr 28, 2020 - Replication Data for: Self-assembly of a robust hydrogen-bonded octylphosphonate network on cesium lead bromide perovskite nanocrystals for light-emitting diodes

PNG Image - 859.7 KB -

CsPbBr3 NC LED device characteristics. (a) Band diagram, (b) current–voltage–luminance, (c) EQE/current efficiency against current density, and (d) power efficiency against luminance plots. CON denotes reference NC inks, OPA denotes OPA-treated inks; 1w and 2w denotes inks washed...

FTIR.png

Apr 28, 2020 - Replication Data for: Self-assembly of a robust hydrogen-bonded octylphosphonate network on cesium lead bromide perovskite nanocrystals for light-emitting diodes

PNG Image - 2.1 MB -

ATR FTIR spectra. (a) REF (solid) and OPA (dashed) NC samples for purified once (black) and twice (red). The C−O stretching region is shown. (b) Crystalline OPA (blue) and OPA NC samples after one purified cycle with 2:1 ethyl acetate (black) and after a second purification cycle...

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