A high performance triboelectric nanogenerator using assembled sugar naphthalimides for self-powered electronics and sensors
[Display omitted] •A new class of N-glycosyl naphthalimide ricinoleate (NGNR) amphiphiles were generated.•Environmentally friendly chemical protocol is optimized to obtain good yields.•Explored the self-assembled NGNR as an electron donor triboelectric layer in TENG.•TENG is used to power up small e...
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| Published in: | Chemical engineering journal (Lausanne, Switzerland : 1996) Vol. 490; p. 151800 |
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| Main Authors: | , , , , , , , |
| Format: | Journal Article |
| Language: | English |
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Elsevier B.V
15-06-2024
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| Abstract | [Display omitted]
•A new class of N-glycosyl naphthalimide ricinoleate (NGNR) amphiphiles were generated.•Environmentally friendly chemical protocol is optimized to obtain good yields.•Explored the self-assembled NGNR as an electron donor triboelectric layer in TENG.•TENG is used to power up small electronic devices continuously.•Developed self-powered humidity sensors.
A new class of N-glycosyl naphthalimide ricinoleate (NGNR) amphiphiles were generated using environmentally friendly reaction conditions in good yields. To investigate the potential applications of NGNR amphiphiles within the realm of supramolecular materials, molecular self-assembly experiments were conducted extensively across a diverse range of solvents and oils and observed the gel formation. Molecular-level interactions and assembly patterns were investigated by employing FTIR, SAXRD, UV–vis, and fluorescence spectroscopy, and a plausible assembly mechanism was proposed. The morphology of the supramolecular architecture was identified by scanning electron microscopy. Additionally, rheological studies provided insight into these soft materials' strength and processability. Further, in the process of fabricating a triboelectric nanogenerator (TENG) device, silicone rubber serves as an electron acceptor and assembled NGNR serves as an electron donor. The developed TENG demonstrated a significant improvement in performance over TENG made with amorphous NGNR, with output voltage, current, and power density of 410 V, 100 µA, and 5.1 W/m2, respectively, highlighting the importance of the assembly process. Furthermore, TENG is used to continuously power up small electronic device (calculator), which is useful in building self-powered electronic devices. Lastly, due to its high sensitivity and stability, the TENG was used to detect the humidity of the environment in the food processing, textile, and agriculture sectors. The change in TENG response is notably significant up to 70 % relative humidity (RH). This work showcases the development of self-powered humidity sensors. |
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| AbstractList | [Display omitted]
•A new class of N-glycosyl naphthalimide ricinoleate (NGNR) amphiphiles were generated.•Environmentally friendly chemical protocol is optimized to obtain good yields.•Explored the self-assembled NGNR as an electron donor triboelectric layer in TENG.•TENG is used to power up small electronic devices continuously.•Developed self-powered humidity sensors.
A new class of N-glycosyl naphthalimide ricinoleate (NGNR) amphiphiles were generated using environmentally friendly reaction conditions in good yields. To investigate the potential applications of NGNR amphiphiles within the realm of supramolecular materials, molecular self-assembly experiments were conducted extensively across a diverse range of solvents and oils and observed the gel formation. Molecular-level interactions and assembly patterns were investigated by employing FTIR, SAXRD, UV–vis, and fluorescence spectroscopy, and a plausible assembly mechanism was proposed. The morphology of the supramolecular architecture was identified by scanning electron microscopy. Additionally, rheological studies provided insight into these soft materials' strength and processability. Further, in the process of fabricating a triboelectric nanogenerator (TENG) device, silicone rubber serves as an electron acceptor and assembled NGNR serves as an electron donor. The developed TENG demonstrated a significant improvement in performance over TENG made with amorphous NGNR, with output voltage, current, and power density of 410 V, 100 µA, and 5.1 W/m2, respectively, highlighting the importance of the assembly process. Furthermore, TENG is used to continuously power up small electronic device (calculator), which is useful in building self-powered electronic devices. Lastly, due to its high sensitivity and stability, the TENG was used to detect the humidity of the environment in the food processing, textile, and agriculture sectors. The change in TENG response is notably significant up to 70 % relative humidity (RH). This work showcases the development of self-powered humidity sensors. |
| ArticleNumber | 151800 |
| Author | Banoo, Tohira Kumar, Yogendra Deepshikha Nagarajan, Subbiah Prasad Rebaka, Vara Navaneeth, Madathil Kumar Rachamalla, Arun Kumar Rajaboina, Rakesh |
| Author_xml | – sequence: 1 givenname: Arun surname: Kumar Rachamalla fullname: Kumar Rachamalla, Arun organization: Assembled Organic and Hybrid Material Lab, Department of Chemistry, National Institute of Technology Warangal, Hanumakonda 506004, Telangana, India – sequence: 2 givenname: Madathil surname: Navaneeth fullname: Navaneeth, Madathil organization: Energy Materials and Devices Lab, Department of Physics, National Institute of Technology Warangal, Hanumakonda 506004, Telangana, India – sequence: 3 givenname: Tohira surname: Banoo fullname: Banoo, Tohira organization: Assembled Organic and Hybrid Material Lab, Department of Chemistry, National Institute of Technology Warangal, Hanumakonda 506004, Telangana, India – sequence: 4 surname: Deepshikha fullname: Deepshikha organization: Assembled Organic and Hybrid Material Lab, Department of Chemistry, National Institute of Technology Warangal, Hanumakonda 506004, Telangana, India – sequence: 5 givenname: Vara surname: Prasad Rebaka fullname: Prasad Rebaka, Vara organization: Assembled Organic and Hybrid Material Lab, Department of Chemistry, National Institute of Technology Warangal, Hanumakonda 506004, Telangana, India – sequence: 6 givenname: Yogendra surname: Kumar fullname: Kumar, Yogendra organization: Assembled Organic and Hybrid Material Lab, Department of Chemistry, National Institute of Technology Warangal, Hanumakonda 506004, Telangana, India – sequence: 7 givenname: Rakesh surname: Kumar Rajaboina fullname: Kumar Rajaboina, Rakesh email: rakeshr@nitw.ac.in organization: Energy Materials and Devices Lab, Department of Physics, National Institute of Technology Warangal, Hanumakonda 506004, Telangana, India – sequence: 8 givenname: Subbiah surname: Nagarajan fullname: Nagarajan, Subbiah email: snagarajan@nitw.ac.in organization: Assembled Organic and Hybrid Material Lab, Department of Chemistry, National Institute of Technology Warangal, Hanumakonda 506004, Telangana, India |
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| Keywords | FDA DMSO ATR-FTIR IoTs FT-IR XRD TENG Tg Molecular assembly NGNR AIE CGC WHO UV AC Gels Self-powered electronics Naphthalimides GCNA FEP NMR PMMA FAO RH Triboelectric nanogenerator SEM LVE GRAS HLB DC |
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•A new class of N-glycosyl naphthalimide ricinoleate (NGNR) amphiphiles were generated.•Environmentally friendly chemical protocol is... |
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