Anisotropic metal nanoparticles with plasmonic and photocatalytic action exhibit significant
applications for SERS detection and green transformation. Current synthetic approaches …

In this work, the influence of substrate surface charge on in vitro osteoblast cell proliferation
on ferroelectric lithium niobate (LN) crystal surfaces is investigated. LN has a spontaneous …

An attractive strategy for effective Raman signal enhancement is to employ the synergistic
action of electromagnetic and chemical mechanisms by using semiconductor/noble-metal …

Photodeposition of silver nanoparticles onto chemically patterned lithium niobate having
alternating lithium niobate and proton exchanged regions has been previously investigated …

Nanotips made of metal and semiconductor have been widely utilized in versatile
applications to strengthen the electric field through lightning rod effect and localized surface …

This work fabricates a plasmonic lithium niobate substrate with metal nanoparticles (MNPs)
to enhance electromagnetic field interaction and diminish lifetime with concentration …

An important aspect of optimizing micro-and optofluidic devices for lab-on-a-chip systems is
the ability to engineer materials properties including surface structure and charge to control …

The photodeposition of metallic nanostructures onto ferroelectric surfaces could enable new
applications based on the assembly of molecules and patterning local surface reactivity by …

The preferential deposition of metal nanoparticles onto periodically poled lithium niobate
surfaces, whereby photogenerated electrons accumulate in accordance with local electric …

Local reactivity on periodically proton exchanged lithium niobate (PPE: LN) surfaces is a
promising route for the fabrication of regularly spaced nanostructures. Here, using MgO …