Highlights This review paper provides a comprehensive analysis of light–material interaction (LMI) parameters, offering insights into their significance in material processing. It examines a wide
Abstract: This chapter will review the use of laser-based material processing techniques, such as pulsed laser deposition (PLD), laser-induced forward transfer (LIFT), and
This review delves into recent advancements in laser processing techniques for energy storage device electrodes, focusing on their application in battery technology. We
Energy storage applications refer to technologies and systems that manage and store energy for later use, enhancing the efficiency and reliability of electric grids and
Recent focus of the research community is on identifying multifunctional materials for the realization of high density energy storage capacitors. Present work focuses on
The recent advances of LIG as a new type of carbon-based material in the preparation and applications are reviewed. With ultrahigh specific surface area and excellent
As an innovation partner in the field of photonics, the Fraunhofer Institute for Laser Technology ILT develops and implements highly efficient laser processes for the production of energy
Energy Storage and Applications Energy Storage and Applications is an international, peer-reviewed, open access journal on energy storage technologies and their applications, published quarterly online by MDPI.
It begins with a historical overview and discusses the challenges frequently faced in energy storage for biomedical applications, emphasizing the need for efficient, reliable
Metal–organic frameworks (MOFs) have emerged as promising contenders in storage applications due to their unique properties. In this study, we synthesized CuZn-MOF-Px by
This work demonstrates remarkable advances in the overall energy storage performance of lead-free bulk ceramics and inspires further attempts to achieve high-temperature energy storage
The successful integration of the Laser Weapon System (LaWS) aboard the USS Ponce has proven that directed energy is a viable defensive technology. The depth of applications for
It is challenging to obtain a material that can detect photons ranging from X-rays to infrared light. Such materials have promising use to develop advanced applications like in information
The overall contents of laser-induced graphene (LIG) are discussed in this review, especially focusing on the several parameters for synthesizing LIG and their effects, and applications in electrochemical
It is challenging to obtain a material that can detect photons ranging from X-rays to infrared light. Such materials have promising use to develop advanced applications like in information storage, anticounterfeiting, or X
The overall contents of laser-induced graphene (LIG) are discussed in this review, especially focusing on the several parameters for synthesizing LIG and their effects,
Energy loss is a major concern in energy storage systems, and laser technology addresses this issue effectively. Techniques such as laser annealing can reduce the internal
Sputtered thin lm deposited laser induced graphene based novel micro‑supercapacitor device for energy storage application
Electrode materials capable of electrochemical energy storage and conversion are of paramount importance in promoting the application of new energy technologies and have attracted
Review Laser-induced and catalyst-free formation of graphene materials for energy storage and sensing applications Rajesh Kumar a, Raghvendra Pandey b, Ednan
The immense potential of lead-free dielectric capacitors in advanced electronic components and cutting-edge pulsed power systems has driven enormous investigations and evolutions heretofore. One of the significant
Multifunctional Cu–TiO2 porous nano-structures via post-synthesis LASER treatment for boosting energy storage and photocatalytic applications
The diversified development of laser welding technology provides abundant choices for energy storage cell manufacturing to meet the welding needs under different
Laser-induced graphene (LIG) has emerged as a promising alternative to reduced graphene oxide (rGO), significantly impacting biomedical engineering, particularly in energy storage for medical
In addition to its traditional use, laser irradiation has found extended application in controlled manipulation of electrode materials for electrochemical energy storage and conversion, which
Laser-based methodologies for synthesis, reduction, modification and assembly of graphene-based materials are highly demanded for energy-related elect
Combining our expertise in inorganic chemistry, nanomaterials, and electrochemistry, we aim to address some of the challenging questions in catalysis, energy conversion, CO2/N2 fixation, and microbiota.
Pt catalyst protected by graphene nanopockets enables lifetimes of over 200,000 h for heavy-duty fuel cell applications Nature nanotechnology (2025) [doi]
By rationally utilizing the characteristics of colloidal soft matter, the energy density, power density and cycle stability of energy storage devices can be effectively
In this work, we have successfully explored the application of chitosan-based green, sustainable, and biodegradable materials as feedstock materials for the direct laser
This work demonstrates remarkable advances in the overall energy storage performance of lead-free bulk ceramics and inspires further attempts to achieve high
In addition to its traditional use, laser irradiation has found extended application in controlled manipulation of electrode materials for electrochemical energy storage and conversion, which are primarily enabled by the laser-driven rapid, selective, and programmable ma-terials processing at low thermal budgets.
Specifically, the structural defects, heterostructures, and inte-grated electrode architectures, all of which have been actively pursued for energy storage and conversion in recent years, can be facilely, efficiently, and controllably modulated by laser processing.
Laser irradiation can be digitized by computer-aided design, permitting a program-mable construction of patterned electrodes with arbitrary shapes and sizes (Fig-ure 8G).107 Pairing the adjacent two electrodes results in a device ready for capaci-tive energy harvest.
Because of the employment of different materials on anode and cathode, the fabri-cation of a rechargeable battery device through laser-mediated processes would be difficult. In contrast to the flourishing development of laser-enabled supercapacitor devices, laser-enabled battery devices have seldom been reported.
The major drawback of this technology is the low efficiency and high requirement of a sophisticated vacuum system. This deficiency could be Figure 10. Laser-Enabled Materials and Devices for Rechargeable Batteries (A and B) TEM (A) and SEM (B) images of the PLD-derived Fe2O3 electrode.
However, the implementation of the critical technologies of beam combining at high power levels is still a complex process. Diode-pumped alkali vapor lasers (DPAL) seem to be promising as their high quantum efficiencies make thermal management easier.
