Add to ORKGThe chemistry that governs the dissolution of device-grade, monocrystalline silicon nanomembranes into benign end products by hydrolysis serves as the foundation for fully eco/biodegradable classes of high-performance electronics. This paper examines these processes in aqueous solutions with chemical compositions relevant to groundwater and biofluids. The results show that the presence of Si(OH)4 and proteins in these solutions can slow the rates of dissolution and that ion-specific effects associated with Ca2+ can significantly increase these rates. This information allows for effective use of silicon nanomembranes not only as active layers in eco/biodegradable electronics but also as water barriers capable of providing perfect encapsulati...
Implantable electronics are of great interest owing to their capability for real-time and continuous...
Mesoporous materials with engineered surface properties are of interest for molecular separations, c...
Biomedical implants that incorporate active electronics and offer the ability to operate in a safe, ...
Single-crystalline silicon nanomembranes (Si NMs) represent a critically important class of material...
Biodegradable electronic devices that physically disappear in physiological or environmental solutio...
Recent advances in materials, mechanics design and microfabrication technologies are beginning to es...
Semiconducting materials are central to the development of high-performance electronics that are cap...
Flexible electronic systems for bioimplants that offer long-term (multidecade) stability and safety ...
Transient electronics represents an emerging class of technology that exploits materials and/or devi...
Thin-film silicon (Si)-based transient electronics represents an emerging technology that enables sp...
A brief review of recent progress and a description of new advances in materials for bioresorbable s...
Many existing and envisioned classes of implantable biomedical devices require high performance elec...
AbstractTransient electronics are an emerging class of electronics with the unique characteristic to...
A remarkable feature of a silicon-based electronics is its capability to operate functionally and ph...
Luminescent silicon nanocrystals (Si-nc) are promising material for biomedical purposes. However, as...
Implantable electronics are of great interest owing to their capability for real-time and continuous...
Mesoporous materials with engineered surface properties are of interest for molecular separations, c...
Biomedical implants that incorporate active electronics and offer the ability to operate in a safe, ...
Single-crystalline silicon nanomembranes (Si NMs) represent a critically important class of material...
Biodegradable electronic devices that physically disappear in physiological or environmental solutio...
Recent advances in materials, mechanics design and microfabrication technologies are beginning to es...
Semiconducting materials are central to the development of high-performance electronics that are cap...
Flexible electronic systems for bioimplants that offer long-term (multidecade) stability and safety ...
Transient electronics represents an emerging class of technology that exploits materials and/or devi...
Thin-film silicon (Si)-based transient electronics represents an emerging technology that enables sp...
A brief review of recent progress and a description of new advances in materials for bioresorbable s...
Many existing and envisioned classes of implantable biomedical devices require high performance elec...
AbstractTransient electronics are an emerging class of electronics with the unique characteristic to...
A remarkable feature of a silicon-based electronics is its capability to operate functionally and ph...
Luminescent silicon nanocrystals (Si-nc) are promising material for biomedical purposes. However, as...
Implantable electronics are of great interest owing to their capability for real-time and continuous...
Mesoporous materials with engineered surface properties are of interest for molecular separations, c...
Biomedical implants that incorporate active electronics and offer the ability to operate in a safe, ...