Highly accurate, reliable, and non-contaminating two-dimensional material transfer system

The exotic properties of two-dimensional materials and heterostructures, built by forming heterogeneous multi-layered stacks, have been widely explored across several subject matters following the goal to invent, design, improve applications enabled these materials. Successfully harvesting unique effectively increasing yield manufacturing material-based devices for achieving reliable repeatable results is current challenge. scientific community has introduced various experimental transfer systems explained in detail exfoliation materials; however, field lacks statistical analysis capability producing a technique enabling (i) high precision yield, (ii) cross-contamination free transfer, (iii) multi-substrate (iv) rapid prototyping without wet chemistry. Here, we introduce novel material deterministic system experimentally show its accuracy, reliability, repeatability, non-contaminating features demonstrating fabrication optoelectronic featuring device physics functionality. paves way toward accelerated characterization. Such analyzing prototype can accelerate not only layered science discovery but also engineering innovations.