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The advance of modern semiconductor technology is mainly due to the advances of materials, especially polymeric and composite materials. These include the use of polymers and composites as: interlayer dielectrics (for low dielectric constant (k), low loss dielectrics for high speed and low loss signal transmission), encapsulants (for discrete and wafer level packages for Integrated Circuit (IC) devices protection), adhesives (both conductive and non-conductive composites for IC devices and components attachments and electronic system assembly interconnects), embedded passives (both high K capacitors, high Q inductors for high density Printed Wiring Board (PWB) substrates), superhydrophobic self-cleaning lotus effect surfaces, etc. In this presentation, we will review some of the recent advances on nano-materials and nano-technologies that are currently being investigated for these types of applications, such as : lead-free flexible electrically conductive adhesives (ECAs) with flexible/stretchable properties, self assembly monolayer molecular wires for fine pitch and high current density electronic interconnects, flip chip and wafer level underfills for high performance system reliability, nano lead-free alloys for low temperature interconnects, well-aligned carbon nanotubes and graphenes for high current and high Thermal Interface Materials (TIMs), superhydrophobic self-clean lotus leave surface coatings and nano Metal Assisted Chemical Etching (MaCE) for Micro Electrical Mechanical System(MEMS) and high efficiency solar cell applications.