MXenes
belong to a large family of two-dimensional layered transition-metal
carbides and nitrides. MXene nanosheets integrate the fascinating
advantages of high electronic conductivity, excellent biocompatibility,
and acid/base resistance. Herein, we demonstrate a “hospital-on-a-chip”
system with multifunctional microneedle electrodes for biosensing
and electrostimulation using highly stable MXene nanosheets. This
system consists of integrated microchip biosensors for an efficient
diagnosis and medical treatment elements for therapies, thus resembling
a miniaturized hospital. Microneedles are composed of dozens of micron-sized
needles that can be used as an effective and painless transdermal
patch to puncture the dead skin barrier for drug delivery or biosensing
purposes since they are directly in contact with the dermal layer
inside the human body. The wearable MXene nanosheet-based microneedles
can sense the tiny electric potential difference generated from the
human eye movements or muscle contraction from the human arm. Therefore,
the diseases associated with neuromuscular abnormalities such as myasthenia
gravis can be monitored. Consequently, the transcutaneous electrical
nerve stimulation treatment can be applied according to the feedback
of the micro-biosensors. In addition, MXene microneedles can offer
an electrically controlled drug delivery platform and the function
of enhancing blood coagulation. Finally, MXene nanosheet-based microneedles
provide an interesting platform for wearable micro-biosensors and
offer an essential part of the hospital-on-a-chip system.