2023
DOI: 10.1002/adma.202208256
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Piezocatalytic Medicine: An Emerging Frontier using Piezoelectric Materials for Biomedical Applications

Abstract: Emerging piezocatalysts have demonstrated their remarkable application potential in diverse medical fields. In addition to their ultrahigh catalytic activities, their inherent and unique charge-carrier-releasing properties can be used to initiate various redox catalytic reactions, displaying bright prospects for future medical applications. Triggered by mechanical energy, piezocatalytic materials can release electrons/holes, catalyze redox reactions of substrates, or intervene in biological processes to promot… Show more

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Cited by 118 publications
(68 citation statements)
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“…[166,167] Sonopiezoelectric biomaterials have been extensively adopted in nerve regeneration owing to their distinctive ability to generate the built-in electric field under the irritation of external US. [168,169] Sonopiezoelectric stimulation as the desirable candidate for the targeted nerves has the advantages of wireless and non-invasiveness in contrast to the wired electrical case. [2] As an instance for this case, the US (0.8 W cm −2 , 1.0 MHz)-irradiated BTO achieved the wireless electrical stimulation for SH-SY5Y neuron-like cells by unfolding the voltage-gated channels to bring about the influx [162] Copyright 2022, Elsevier.…”
Section: Neural Regenerationmentioning
confidence: 99%
“…[166,167] Sonopiezoelectric biomaterials have been extensively adopted in nerve regeneration owing to their distinctive ability to generate the built-in electric field under the irritation of external US. [168,169] Sonopiezoelectric stimulation as the desirable candidate for the targeted nerves has the advantages of wireless and non-invasiveness in contrast to the wired electrical case. [2] As an instance for this case, the US (0.8 W cm −2 , 1.0 MHz)-irradiated BTO achieved the wireless electrical stimulation for SH-SY5Y neuron-like cells by unfolding the voltage-gated channels to bring about the influx [162] Copyright 2022, Elsevier.…”
Section: Neural Regenerationmentioning
confidence: 99%
“…In general, the power and voltage requirements for implantable biomedical devices typically range from microwatt (μW)–milliwatt (mW) and 2–3 V, respectively. 389,390…”
Section: Summary and Future Perspectivesmentioning
confidence: 99%
“…(3) 压-电-化学耦合在医疗领域的应用需要进一步探索。施剑林等人将压-电-化学耦应用到生物医学领域,将其称为"压电医学" [78] 。 压-电-化学耦合可以被 用来治疗肿瘤细胞。未来结合 B 超来实现诊断与治疗一体化值得进一步探索。 此外,将压电材料与口腔护理相结合,利用刷牙过程中牙刷产生的振动,可以 实现压-电-化学耦合的牙齿美白 [79] 。在压电医学方面,催化剂的生物安全性、生…”
Section: 展望unclassified