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J. J. Nicholas Lim

ORCID: 0000-0003-1317-4758
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About
Contact & Profiles
A5010531265
Research Areas
  • Advancements in Battery Materials
  • Advanced Battery Materials and Technologies
  • Supercapacitor Materials and Fabrication
  • Fiber-reinforced polymer composites
  • Advanced Battery Technologies Research
  • Advanced battery technologies research
  • Semiconductor materials and devices
  • Optical Imaging and Spectroscopy Techniques
  • Bone Tissue Engineering Materials
  • Cell Image Analysis Techniques
  • 3D Printing in Biomedical Research
  • Tissue Engineering and Regenerative Medicine
  • Electrospun Nanofibers in Biomedical Applications
  • Thermal Expansion and Ionic Conductivity
  • Electronic and Structural Properties of Oxides
  • Diamond and Carbon-based Materials Research

Nanyang Technological University
 2015-2025

Sogang University
 2025

 Electrolyte designs for safer lithium-ion and lithium-metal batteries
OPENALEX - Publications 
J. J. Nicholas Lim Gwendolyn J. H. Lim Yi Cai Rodney Chua Yuqi Guo and 2 more Yao Yan Madhavi Srinivasan

This review summarizes the safety challenges in LIBs and LMBs outlines recent advances electrolytes for safer batteries. These novel approaches were further evaluated critically to determine their effectiveness

10.1039/d3ta02916f article EN Journal of Materials Chemistry A 2023-01-01
 Structural cathodes: Navigating the challenges in fabrication and multifunctional performance analysis
OPENALEX - Publications 
Nur Ayu Afira Sutrisnoh Gwendolyn J. H. Lim Kwok Kiong Chan J. J. Nicholas Lim Madhavi Srinivasan

10.1016/j.compscitech.2023.110147 article EN publisher-specific-oa Composites Science and Technology 2023-07-13
 Rapid in situ growth of high-entropy oxide nanoparticles with reversible spinel structures for efficient Li storage
OPENALEX - Publications 
Siyu Zhu Wei Nong J. J. Nicholas Lim Xun Cao Peilin Zhang and 10 more Yu Lu Mingzhen Xiu Kang Huang Gang Wu Shuo‐Wang Yang Junsheng Wu Zheng Liu Madhavi Srinivasan Kedar Hippalgaonkar Yizhong Huang

Using laser radiation, high-entropy nanoparticles were rapidly fabricated on conductive carbon. The nanomaterials with reversible spinel structures exhibit better cycling and rate performances in LIBs.

10.1039/d3ta08101j article EN cc-by-nc Journal of Materials Chemistry A 2024-01-01
 Toward High‐Capacity Carbon Fiber Cathodes for Structural Batteries using Electrophoretic Deposition: Effects of Oxidative Surface Treatment on Carbon Fibers
OPENALEX - Publications 
Nur Ayu Afira Sutrisnoh Gwendolyn J. H. Lim Kwok Kiong Chan Karthikayen Raju Vanessa Teh and 3 more J. J. Nicholas Lim Derrick Wen Hui Fam Madhavi Srinivasan

Structural batteries possess multifunctional capability to store electrochemical energy and carry mechanical load concurrently. Carbon fiber cathodes (CFC), one of the main components in structural batteries, can be fabricated by depositing cathode active materials on carbon fibers using techniques such as electrophoretic deposition (EPD). However, intrinsically inert surface may result weak adhesion. In this study, different oxidative treatments (acid, electrochemical, heat) are evaluated...

10.1002/adem.202300694 article EN Advanced Engineering Materials 2023-09-29
 A Universal Highly Concentrated Electrolyte for Improved Cycling Stability in Li(Ni1-x-yMnxCoy)O2-NMC-Based Batteries
OPENALEX - Publications 
J. J. Nicholas Lim Yi Cai Madhavi Srinivasan

While 1 M LiPF6 has been widely adopted as the standard electrolyte in current LIBs, its chemical instability reduced battery’s cycling stability by, for instance, accelerating dissolution of transition metals from electrode materials, particularly high-voltage cathodes. Lithium bis(fluorosulfonyl)imide (LiFSI) emerged a promising alternative salt next-generation energy-dense LIB electrolytes. However, despite extensive research, optimal concentration and formulation LiFSI remain unresolved,...

10.3390/en18040974 article EN cc-by Energies 2025-02-18
 Real-time monitoring and quantitative analysis of 3D tumor spheroids using portable cellular imaging system
OPENALEX - Publications 
J. J. Nicholas Lim Ji Wook Choi Na Yeon Kim Taewook Kang Bong Geun Chung

10.1007/s13534-025-00470-y article EN Biomedical Engineering Letters 2025-03-28
 Reversible Alkaline Sulfur Cathode Based on Six-Electron Electrochemistry for Advanced Aqueous Sulfur Batteries
OPENALEX - Publications 
Yuqi Guo Yingqian Chen Gwendolyn J. H. Lim Siyu Zhu Yulia Lekina and 10 more Yi Cai Vivek Verma Kwok Kiong Chan J. J. Nicholas Lim Ernest Jun Jie Tang Pinit Kidkhunthod Ming Wah Wong Yizhong Huang Zexiang Shen Madhavi Srinivasan

Aqueous sulfur batteries are promising for high-performance and low-cost energy storage. However, their density is limited by low battery voltages due to the negative potential [E0 = -0.51 V vs standard hydrogen electrode (SHE)] of valent redox (S0/S2-) discharge capacity (∼300 mA h g-1) high (S2O32-/S4O62- or S4+/S0). Herein, we develop a reversible alkaline cathode via introducing Cu2+ Zn2+ ion mediators, exhibiting above 0 SHE, which higher than specific 1340 g-1. Furthermore, proposed...

10.1021/acsnano.4c16835 article EN ACS Nano 2025-04-21
 From properties to performance: Understanding the multifunctional performance of carbon fiber cathodes for structural batteries
OPENALEX - Publications 
Nur Ayu Afira Sutrisnoh Gwendolyn J.H. Lim Kwok Kiong Chan Karthikayen Raju J. J. Nicholas Lim and 3 more J. Justin Koh Derrick Wen Hui Fam Madhavi Srinivasan

10.1016/j.compositesa.2024.108696 article EN Composites Part A Applied Science and Manufacturing 2024-12-01
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