Unlike conventional subtractive methods, 3D printing allows rapid prototy** and
customization on demand. However, as a process recently applied to carbon-based …

Abstract 3D printing is a versatile technology that can be used to print a wide variety of
complex-shaped structures with robust flexibility and ordered morphology at a low cost and …

The global push toward decarbonization and electrification has led to a rapidly growing
research effort to achieve ever-increasing device performance goals. These efforts have …

Additive micro/nano‐manufacturing of polymeric precursors combining with a subsequent
pyrolysis step enables the design‐controlled fabrication of micro/nano‐architected 3D …

Traditional carbon electrodes are made of glassy carbon or carbon fibers and have limited
shapes. 3D printing offers many advantages for manufacturing carbon electrodes, such as …

Abstract With the impending Industrial Revolution 4.0, the information produced by sensors
will be central in many applications. This includes the healthcare sector, where affordable …

The increasing adoption of additive manufacturing (AM), also known as 3D printing, is
revolutionizing the production of wearable electronics and energy storage devices (ESD) …

Recent advances in 3D printing have enabled the manufacture of porous electrodes which
cannot be machined using traditional methods. With micron-scale precision, the pore …

Producing H 2 O 2 via microbial electrosynthesis is a cost-effective and environmentally
favorable alternative to the costly and environmentally hazardous anthraquinone method …

Abstract 3D printing and carbonisation is used to produce designed gas diffusion layer
materials for polymer electrolyte membrane fuel cells (PEMFC). Using a desktop UV 3D …