20. Z. Wu, T. Cheng and Z.L. Wang 2020 Self-powered sensors and systems based on nano­

generators Sensors (Basel) 20 2925.

21. T.G. Glover, G.W. Peterson, B.J. Schindler, D. Britt and O. Yaghi 2011 MOF-74 building unit has

a direct impact on toxic gas adsorption Chemical Engineering Science 66 163–170.

22. S. Patel, H. Park, P. Bonato, L. Chan, M. Rodgers and Rehabilitation 2012 A review of

wearable sensors and systems with application in rehabilitation Journal of NeuroEngineering

and Rehabilitation 9 1–17.

23. J. Qi, A.C. Wang, W. Yang, M. Zhang, C. Hou, Q. Zhang, Y. Li and H. Wang 2020 Hydrogel-

based hierarchically wrinkled stretchable nanofibrous membrane for high performance

wearable triboelectric nanogenerator Nano Energy 67 104206.

24. F. Yi, Z. Zhang, Z. Kang, Q. Liao and Y. Zhang 2019 Recent advances in triboelectric

nanogeneratorbased health monitoring Advanced Functional Materials 29 1808849.

25. V. Vivekananthan, A. Chandrasekhar, N.R. Alluri, Y. Purusothaman, G. Khandelwal and S.-J.

Kim 2020 Nanogenerators, ed A C a N R A Sang Jae Kim: IntechOpen.

26. S.K. Singh, P. Kumar, R. Magdum, U. Khandelwal, S. Deswal, Y. More, S. Muduli, R.

Boomishankar, S. Pandit and S. Ogale 2019 Seed power: Natural seed and electrospun poly

(vinyl difluoride) (PVDF) nanofiber based triboelectric nanogenerators with high output

power density ACS Applied Bio Materials 2 3164–3170.

27. V.K. Vashistha, D.K. Das and A. Kumar 2022 Metal–organic frameworks-based nanoma­

terials for nanogenerators: A mini review International Nano Letters 10.1007/s40089-021-003

61-x, In press, 1–7.

28. Y. Hao, J. Wen, X. Gao, D. Nan, J. Pan, Y. Yang, B. Chen and Z.L. Wang 2022 Self-rebound

cambered triboelectric nanogenerator array for self-powered sensing in kinematic analytics

ACS nano 16 1271–1279.

29. K. Vijoy, H. John and K.J. Saji 2022 Self-powered ultra-sensitive millijoule impact sensor

using room temperature cured PDMS based triboelectric nanogenerator Microelectronic

Engineering 251 111664.

30. Y. Cao, Y. Guo, Z. Chen, W. Yang, K. Li, X. He and J. Li 2022 Highly sensitive self-powered

pressure and strain sensor based on crumpled MXene film for wireless human motion de­

tection Nano Energy 92 106689.

31. M.T. Rahman, S.M.S. Rana, M.A. Zahed, S. Lee, E.-S. Yoon and J.Y. Park 2022 Metal-

organic framework-derived nanoporous carbon incorporated nanofibers for high-

performance triboelectric nanogenerators and self-powered sensors Nano Energy 94

106921.

32. Y. Guo, Y. Cao, Z. Chen, R. Li, W. Gong, W. Yang, Q. Zhang and H. Wang 2020 Fluorinated

metal-organic framework as bifunctional filler toward highly improving output performance

of triboelectric nanogenerators Nano Energy 70 104517.

33. G. Khandelwal, N.P. Maria Joseph Raj and S.-J. Kim 2020 Zeolitic imidazole framework:

metal–organic framework subfamily members for triboelectric nanogenerators Advanced

Functional Materials 30 1910162.

34. G. Khandelwal, A. Chandrasekhar, N.P. Maria Joseph Raj and S.-J. Kim 2019 Metal–

organic framework: A novel material for triboelectric nanogenerator–based selfpowered sen­

sors and systems Advanced Energy Materials 9 1803581.

35. G. Khandelwal, N.P.M.J. Raj and S.-J. Kim 2020 ZIF-62: A mixed linker metal–organic

framework for triboelectric nanogenerators Journal of Materials Chemistry A 8 17817–17825.

36. S. Hajra, M. Sahu, A.M. Padhan, I.S. Lee, D.K. Yi, P. Alagarsamy, S.S. Nanda and H.J. Kim

2021 A green metal–organic frameworkcyclodextrin MOF: A novel multifunctional material

based triboelectric nanogenerator for highly efficient mechanical energy harvesting Advanced

Functional Materials 31 2101829.

37. B.H. Moghadam, M. Hasanzadeh and A. Simchi 2020 Self-powered wearable piezoelectric

sensors based on polymer nanofiber–metal–organic framework nanoparticle composites for

arterial pulse monitoring ACS Applied Nano Materials 3 8742–8752.

234

Bioelectronics