AI Article Synopsis
- Nanomechanical resonators using suspended graphene show high pressure sensitivity but face energy loss issues in nonvacuum environments due to air damping and gas leakage.
- A new graphene resonant pressure sensor design combines multilayer graphene in a vacuum-sealed structure with pressure-sensitive silicon film, significantly reducing energy loss and addressing gas permeation problems.
- This innovative sensor achieves a high pressure sensitivity of 1.7 Hz/Pa—five times higher than traditional silicon sensors—along with an excellent signal-to-noise ratio and low temperature drift, enhancing long-term stability and efficiency.
Article Abstract
Nanomechanical resonators made from suspended graphene exhibit high sensitivity toward pressure variations. Nevertheless, these devices exhibit significant energy loss in nonvacuum environments due to air damping, as well as inevitably weak gas leakage within the reference cavity because of the slight permeation of graphene. We present a new type of graphene resonant pressure sensor utilizing micro-opto-electro-mechanical systems technology, which features a multilayer graphene membrane that is sealed in vacuum and adhered to pressure-sensitive silicon film with grooves. This approach innovatively employs an indirectly sensitive method, exhibiting 60 times smaller energy loss in atmosphere, and solving the long-standing issue of gas permeation between the substrate and graphene. Notably, the proposed sensor exhibits a high pressure sensitivity of 1.7 Hz/Pa, which is 5 times higher than the sensitivity of the silicon counterparts. Also, the all-optical encapsulating cavity structure contributes a high signal-to-noise ratio of 6.9 × 10 Pa and a low temperature drift (0.014%/C). The proposed method offers a promising solution for long-term stability and energy loss suppression of pressure sensors using two-dimensional materials as the sensitive membrane.
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| http://dx.doi.org/10.1021/acsami.3c04520 | DOI Listing |
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