School of Physical and Mathematical Sciences (SPMS)

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21 to 30 of 8,204 Results

y2.mat Jan 22, 2026 - Replication Data for: Nondiffracting polarization textures enabled by anisotropic loss Hierarchical Data Format - 33.7 KB - MD5: 32cbd67eee52bc7c9a4317444b6e55ae FDTD data
Related Data for: Data-driven discovery of biaxially strained single atoms array for hydrogen production Jan 16, 2026 - Tao ZHANG Zhang, Tao; Fan, Hong Jin, 2026, "Related Data for: Data-driven discovery of biaxially strained single atoms array for hydrogen production", https://doi.org/10.21979/N9/SXRCZV, DR-NTU (Data), V1, UNF:6:IaM2db/1sWy0mPoYJEj48A== [fileUNF] source data for chemical experiments
source data for chemical experiments.tab Jan 16, 2026 - Related Data for: Data-driven discovery of biaxially strained single atoms array for hydrogen production Tabular Data - 56.7 KB - 19 Variables, 327 Observations - UNF:6:IaM2db/1sWy0mPoYJEj48A==
Understanding the structure–activity relationship of additives for durable Zn metal batteries: a case study of aromatic molecules Jan 16, 2026 - MOE Tier 2 -ZAB Cai, Daqian, 2026, "Understanding the structure–activity relationship of additives for durable Zn metal batteries: a case study of aromatic molecules", https://doi.org/10.21979/N9/1LUYHO, DR-NTU (Data), V1 The practical implementation of aqueous metal batteries faces significant challenges due to detrimental dendrite formation and parasitic side reactions. While numerous studies have explored electrolyte additives to address these issues, the fundamental structure–activity relation...
DATA.zip Jan 16, 2026 - Understanding the structure–activity relationship of additives for durable Zn metal batteries: a case study of aromatic molecules ZIP Archive - 895.7 MB - MD5: da71e507d16d23559d4b0a7fffad8efe
Related Data for: Highly rechargeable aqueous Sn-metal-based hybrid-ion batteriesEmbargoed Jan 16, 2026 - MOE Tier 2 -ZAB Xiao, Tao; Liu, Lingli; Liu, Huan; Li, Ting; Cai, Daqian; Lew, Wen Siang; Zhang, Yongqi, 2027, "Related Data for: Highly rechargeable aqueous Sn-metal-based hybrid-ion batteries", https://doi.org/10.21979/N9/ROUPQK, DR-NTU (Data), V1 Tin (Sn) metal, with its intrinsic resistance to the hydrogen evolution reaction (HER), holds great promise as an anode for safe and rechargeable aqueous Sn-metal batteries (ASBs). However, the major challenges for their practical deployment include uneven Sn deposition and low S...
Raw data for joule.rarEmbargoed Jan 16, 2026 - Related Data for: Highly rechargeable aqueous Sn-metal-based hybrid-ion batteries Compressed Archive - 114.9 MB - MD5: a0ae30536a1b32fda5c75ea5be0c063f
MOE Tier 2 -ZAB(Nanyang Technological University) Jan 16, 2026FAN Hongjin
Replication Data for: Surface-Tension Induced High Packing Density Carbon Nanoribbons Film with Ultrahigh Volumetric Capacitance Jan 16, 2026 - MOE Tier 1 (RG10/24) -Rational design of nano-confinement pores Fan, Hongjin, 2026, "Replication Data for: Surface-Tension Induced High Packing Density Carbon Nanoribbons Film with Ultrahigh Volumetric Capacitance", https://doi.org/10.21979/N9/WAPRIJ, DR-NTU (Data), V1, UNF:6:Yc/rPGDcKI1IQSGaCgY96w== [fileUNF] Raw data for all plots in the paper: Xiao Jun Shi, Huanwen Wang, Taoqiu Zhang, Tong Xue, Haiyong He and Hong Jin Fan, Surface-Tension Induced High Packing Density Carbon Nanoribbons Film with Ultrahigh Volumetric Capacitance, Energy Environ. Sci., 2025,18, 10413-10424
Raw data sharing.tab Jan 16, 2026 - Replication Data for: Surface-Tension Induced High Packing Density Carbon Nanoribbons Film with Ultrahigh Volumetric Capacitance Tabular Data - 12.1 KB - 6 Variables, 419 Observations - UNF:6:Yc/rPGDcKI1IQSGaCgY96w==

y2.mat

Jan 22, 2026 - Replication Data for: Nondiffracting polarization textures enabled by anisotropic loss

Hierarchical Data Format - 33.7 KB -

FDTD data

Related Data for: Data-driven discovery of biaxially strained single atoms array for hydrogen production

Jan 16, 2026 - Tao ZHANG

Zhang, Tao; Fan, Hong Jin, 2026, "Related Data for: Data-driven discovery of biaxially strained single atoms array for hydrogen production", https://doi.org/10.21979/N9/SXRCZV, DR-NTU (Data), V1, UNF:6:IaM2db/1sWy0mPoYJEj48A== [fileUNF]

source data for chemical experiments

source data for chemical experiments.tab

Jan 16, 2026 - Related Data for: Data-driven discovery of biaxially strained single atoms array for hydrogen production

Tabular Data - 56.7 KB - 19 Variables, 327 Observations -

Understanding the structure–activity relationship of additives for durable Zn metal batteries: a case study of aromatic molecules

Jan 16, 2026 - MOE Tier 2 -ZAB

Cai, Daqian, 2026, "Understanding the structure–activity relationship of additives for durable Zn metal batteries: a case study of aromatic molecules", https://doi.org/10.21979/N9/1LUYHO, DR-NTU (Data), V1

The practical implementation of aqueous metal batteries faces significant challenges due to detrimental dendrite formation and parasitic side reactions. While numerous studies have explored electrolyte additives to address these issues, the fundamental structure–activity relation...

DATA.zip

Jan 16, 2026 - Understanding the structure–activity relationship of additives for durable Zn metal batteries: a case study of aromatic molecules

ZIP Archive - 895.7 MB -

Related Data for: Highly rechargeable aqueous Sn-metal-based hybrid-ion batteriesEmbargoed

Jan 16, 2026 - MOE Tier 2 -ZAB

Xiao, Tao; Liu, Lingli; Liu, Huan; Li, Ting; Cai, Daqian; Lew, Wen Siang; Zhang, Yongqi, 2027, "Related Data for: Highly rechargeable aqueous Sn-metal-based hybrid-ion batteries", https://doi.org/10.21979/N9/ROUPQK, DR-NTU (Data), V1

Tin (Sn) metal, with its intrinsic resistance to the hydrogen evolution reaction (HER), holds great promise as an anode for safe and rechargeable aqueous Sn-metal batteries (ASBs). However, the major challenges for their practical deployment include uneven Sn deposition and low S...

Raw data for joule.rarEmbargoed

Jan 16, 2026 - Related Data for: Highly rechargeable aqueous Sn-metal-based hybrid-ion batteries

Compressed Archive - 114.9 MB -

MOE Tier 2 -ZAB(Nanyang Technological University)

Jan 16, 2026FAN Hongjin

Replication Data for: Surface-Tension Induced High Packing Density Carbon Nanoribbons Film with Ultrahigh Volumetric Capacitance

Jan 16, 2026 - MOE Tier 1 (RG10/24) -Rational design of nano-confinement pores

Fan, Hongjin, 2026, "Replication Data for: Surface-Tension Induced High Packing Density Carbon Nanoribbons Film with Ultrahigh Volumetric Capacitance", https://doi.org/10.21979/N9/WAPRIJ, DR-NTU (Data), V1, UNF:6:Yc/rPGDcKI1IQSGaCgY96w== [fileUNF]

Raw data for all plots in the paper: Xiao Jun Shi, Huanwen Wang*, Taoqiu Zhang, Tong Xue, Haiyong He and Hong Jin Fan*, Surface-Tension Induced High Packing Density Carbon Nanoribbons Film with Ultrahigh Volumetric Capacitance, Energy Environ. Sci., 2025,18, 10413-10424

Raw data sharing.tab

Jan 16, 2026 - Replication Data for: Surface-Tension Induced High Packing Density Carbon Nanoribbons Film with Ultrahigh Volumetric Capacitance

Tabular Data - 12.1 KB - 6 Variables, 419 Observations -

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