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Research Output |
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Total Publication = 30+ |
Citation = 3050+ |
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Patent = 5 |
h-Index = 24, i10-Index = 27 |
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Papers with Impact Factor > 25 = 8 |
Papers with Impact Factor > 10 = 15 |
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Sl no. |
Publications
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Journal
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IF
|
|
|
1
|
Extremely stretchable and self-healing conductor based on thermoplastic elastomer for all-three-dimensional printed triboelectric nanogenerator, K Parida, G Thangavel, G Cai, X Zhou, S Park, J Xiong, PS Lee (Article featured in a Nature Communications Editors’ Highlights – 2019) (Article featured in a Phy.org – 2019 and various International media)
|
Nature Communications (2019) 10, 2158
|
14.9
|
|
|
2
|
Skin-touch-actuated textile-based triboelectric nanogenerator with black phosphorus for durable biomechanical energy harvesting, J Xiong, P Cui, X Chen, J Wang, K Parida, MF Lin, PS Lee (Article featured in a Phy.org - 2018 and various International media)
|
Nature communications 9 (2018), 4280
|
14.9
|
|
|
3
|
Highly Transparent, Stretchable, and Self‐Healing Ionic‐Skin Triboelectric Nanogenerators for Energy Harvesting and Touch Applications, K Parida, V Kumar, W Jiangxin, V Bhavanasi, R Bendi, PS Lee
|
Advanced Materials (2017) 29, 1702181
|
30.8
|
|
|
4
|
Water‐Processable, Stretchable, Self‐Healable, Thermally Stable, and Transparent Ionic Conductors for Actuators and Sensors, J Lee*, MWM Tan*, K Parida*, G Thangavel, SA Park, T Park, PS Lee (* equal author contribution) (Article featured in a Phy.org – 2019 and various International media) (Cover Page Advanced Materials)
|
Advanced Materials (2017) 29, 1702181
|
30.8
|
|
|
5
|
Deformable and Transparent Ionic and Electronic Conductors for Soft Energy Devices, S Park*, K Parida*, PS Lee (* equal author contribution)
|
Advanced Energy Material (2017) 7, 1701369.
|
29.3
|
|
|
6
|
Water‐Processable, Stretchable, Self‐Healable, Thermally Stable, and Transparent Ionic Conductors for Actuators and Sensors, J Lee*, MWM Tan*, K Parida*, G Thangavel, SA Park, T Park, PS Lee (* equal author contribution)
|
Advanced Materials (2019) 1906679
|
30.8
|
|
|
7
|
A Stretchable and Self‐Healing Energy Storage Device Based on Mechanically and Electrically Restorative Liquid‐Metal Particles and Carboxylated Polyurethane Composites, S Park,G Thangavel,K Parida, S Li, PS Lee
|
Advanced Materials 31 (2018), 1805536
|
30.8
|
|
|
8
|
Wearable All‐Fabric‐Based Triboelectric Generator for Water Energy Harvesting, J Xiong, MF Lin, J Wang, SL Gaw, K Parida, PS Lee
|
Advanced Energy Materials (2018) 7, 1701243
|
29.3
|
|
|
9
|
Metal Organic Framework‐Derived Metal Phosphates as Electrode Materials for Supercapacitors, R Bendi, V Kumar, V Bhavanasi, K Parida, PS Lee |
Advanced Energy Materials (2016) 6, 1501833 |
29.3 |
|
|
10
|
Design of Mixed‐Metal Silver Decamolybdate Nanostructures for High Specific Energies at High Power Density, V Kumar, S Matz, D Hoogestraat, V Bhavanasi, K Parida, K A Shamery, P S Lee
|
Advanced Materials (2016) 28 (32), 6966-6975 |
30.8
|
|
|
11
|
Emerging Soft Conductors for Bioelectronic Interfaces, D Gao, K Parida, PS Lee
|
Advanced Functional Materials, 1907184 |
17.8 |
|
|
12
|
Progress on triboelectric nanogenerator with stretchability, self-healability and bio-compatibility, K Parida, J Xiong, X Zhou, PS Lee
|
Nano Energy (2019) 59, 237-257
|
17.8
|
|
|
13
|
Self-restoring, waterproof, tunable microstructural shape memory triboelectric nanogenerator for self-powered water temperature sensor, J Xiong, H Luo, D Gao, X Zhou, P Cui, G Thangavel, K Parida, PS Lee
|
Nano Energy (2019) 61, 584-593
|
17.8 |
|
|
14
|
Core-shell nanofiber mats for tactile pressure sensor and nanogenerator applications, MF Lin, J Xiong, J Wang, K Parida, PS Lee
|
Nano Energy (2017) 44, 248-255
|
17.8 |
|
|
15
|
Self-powered graphene thermistor, R Bendi, V Bhavanasi, K Parida, V. C. Nguyen, A Sumboja, K Tsukagoshi, P S Lee
|
Nano Energy (2016) 26, 586-594
|
17.8 |
|
|
16
|
Transparent and stretchable bimodal triboelectric nanogenerators with hierarchical micro-nanostructures for mechanical and water energy harvesting, X Chen, J Xiong, K Parida, M Guo, C Wang, C Wang, X Li, J Shao, PS Lee
|
Nano Energy (2019) 64, 103904
|
17.8
|
|
|
17
|
Self-powered pressure sensor for ultra-wide range pressure detection, K Parida, V Bhavanasi, V Kumar, R Bendi, PS Lee
|
Nano Research (2017) 10, 3557 |
8.8
|
|
|
18
|
Fast charging self-powered electric double layer capacitor, K Parida, V Bhavanasi, V Kumar, J Wang, PS Lee
|
Journal of Power Sources (2016) 342, 70-78 |
9.12
|
|
|
19
|
A Stretchable and Transparent Nanocomposite Nanogenerator for Self-Powered Physiological Monitoring, X Chen, K Parida, J Wang, J Xiong, MF Lin, J Shao, PS Lee
|
ACS applied materials & interfaces (2017) 9, 48, 42200-42209 |
9.2 |
|
|
20
|
Enhanced piezoelectric energy harvesting performance of flexible PVDF-TrFE bilayer films with graphene oxide, V Bhavanasi, V Kumar, K Parida, J Wang, PS Lee
|
ACS applied materials & interfaces (2015) 8, 1, 521-529 |
9.2
|
|
|
21
|
Localized Charge Transfer in Two-Dimensional Molybdenum Trioxide, V Kumar, L Liu, VC Nguyen, V Bhavanasi, K Parida, D Mandler, PS Lee
|
ACS applied materials & interfaces (2017), 9, 32, 27045-27053 |
9.2
|
|
|
22
|
Tunable Ferroelectricity in Ruddlesden-Popper Halide Perovskites, Q Zhang, A Solanki, K Parida, D Giovanni, M Li, TLC Jansen, M S Pshenichnikov, T C Sum.
|
ACS applied materials & interfaces (2019) 11, 14, 13523-13532 |
9.2
|
|
|
23
|
Transparent, Flexible Cellulose Nanofibril–Phosphorene Hybrid Paper as Triboelectric Nanogenerator, P Cui, K Parida, MF Lin, J Xiong, G Cai, PS Lee
|
Advanced Materials Interfaces (2017), 4, 22
|
6.1
|
|
|
24
|
Flexible Superamphiphobic Film for Water Energy Harvesting, MF Lin, K Parida, X Cheng, PS Lee
|
Advanced Materials Technologies (2017), 2, 1 |
7.8
|
|
|
25
|
Multi-responsive supercapacitors: Smart solution to store electrical energy, V Kumar, S Park, K Parida, V Bhavanasi, PS Lee
|
Materials Today Energy 4, 41-57
|
7.3
|
|
|
26
|
Synthesis and Characterization of SiNW-MnO2 Core-Shell Structure, A Soam, K Parida, A Kumbhar, R Dusane (M. Tech Work)
|
Nano Hybrids 10, 28-34
|
-
|
|
|
27
|
Silicon-MnO2 core-shell nanowires as electrodes for micro-supercapacitor application, A Soam, K Parida, R Kumar, RO Dusane (M. Tech Work)
|
Ceramics International (2019)
|
4.5
|
|
|
|
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|
Conference Presentation/Poster |
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|
1
|
Wide range pressure sensor, Europen Advanced Materials Congress - 2017, Sweden K. Parida, P. S. Lee (Oral) (Invited Presentation)
|
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|
2
|
Novel materials science enabling stretchable/wearable technologies, K. Parida (Oral) National Material Mechanics Workshop - 2018, Singapore (Invited Presentation)
|
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|
3
|
Self-powered ultra large range pressure sensor” K. Parida, P. S. Lee (Poster) Material Research Society- Spring 2017, Phoenix, USA
|
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4
|
Self-powered touch sensor and energy harvester for human machine interface, K. Parida, P. S. Lee (Oral) 8th MRS-Singapore Conference on Advanced Materials, 2018
|
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5
|
Wide range pressure sensor, K. Parida, P. S. Lee (Oral) International Conference on Materials for Advanced Technologies- 2017, Singapore
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