Introducing FUJIFILM’s expansive, varied technologies to enable expansion into a wide range of business fields.

Core Technologies

Technologies that form the core for the creation of sustained competitive advantage, built atop fundamental technologies.
Technologies that have the potential to form the core of “co-creation” of new value.

  • A wide-ranging grain design technology based on atomic and molecular controls

  • Processing and mass-production technologies suited to grain formation

Grain design example

Grain design for a variety of substances, based on an understanding of control mechanisms at the atomic and molecular level.

Engineering Technology

A variety of grain formation process technologies, as well as production technology and technology to increase mass production scale

Realize entirely distinct properties and multipurpose developments through changes to material/form/size

  • Organic molecule design capabilities for key materials

  • The ability to design formulas that control complex reactions

Molecular design capability

Engineering technology

Freely control light and color

Applications to new materials that can be utilized in new fields in response to a diversifying market

  • Organic molecule design capabilities for key materials

  • The ability to design formulas that control complex reactions

Molecular design capabilities

Engineering technology

Photopolymer technology

Applications to new materials fit for a role in new fields, addressing a diversifying market

  • A balance of high reactivity (high sensitivity and selectivity) with stability (storage before use and stability post-reaction)

  • Synergistic use of wide-ranging technologies for application to diverse materials and products

Instant Photography Technologies (Cheki)

Photograph generation is a series of reactions triggered by redox reactions that transform silver halide into metallic silver.
Instant cameras include a photo generation mechanism inside a small card, and are a mixture of redox control technologies developed over extensive experience with photographic technology.

Reactive Oxygen Control Technologies

Using “Reactive Oxygen Control” technologies - developed to preserve photo prints against color blurring - as a means of preventing skin oxidation from ultraviolet light, we have expanded into the cosmetics sector.
At present, we hold over 4,000 types of antioxidant ingredients, and put these to use freely.

  • The many uses of dispersion materials and agents that enable the nanotechnology sector

  • Applicable to a wide range of materials, such as inorganic and organic powders, and oils

Dispersion in the nanotechnology sector

Improved transparency and permeation through miniaturization

Compatible with a wide variety of targets

We internally design a wide range of dispersion agents and processes according to the material and its application

High density, high functionality, and developed for a wide range of fields

  • We have total technologies for materials/supporting structures/dispersion/coatings/drying/shipping/quality assurance

  • Compatible with a diverse variety of coating fluids (water-soluble, organic solvents) and coating support structures (from 5 μm to 400 μm)

Total technologies from materials through quality assurance

Developing precision coating methods tailored to products

Transitioning to highly-functional films

  • Solvent/fusion membrane creation allows for creation of diverse polymer films

  • All processes are linked, from material design and formula through processing

Solvent Membrane Creation Technologies

Raw materials dissolved in a solvent are film-coated and dried, then wound up (into a roll).

Joint casting technology produces uniform multi-layered structures and enables improvements of surface condition and high functionality

A variety of polymers allow for the formation of 3D structural film

Solvent Membrane Generation Technology

Raw materials dissolved with heat are film-coated and cooled, then wound up (into a roll).
We can add varied functional layers to both sides.


  • Seeking shaping precision on the nanometer order

  • A wide range of materials (plastics/rubbers/glasses/ceramics) and forming technologies (injection/heat- and light-cured/compression/extrusion)

The 6 Technologies That Support High-Precision Forming

Diversifying materials and forming technologies

  • Using a precisely-regulated imaging element and optics, we enable higher-quality imaging that was a challenge with conventional systems

  • We develop all vital systems internally, such as imaging lenses, sensors, and signal processors

  • We also provide total solutions, including post-imaging data analysis

Efforts to improve image quality

We have achieved improvements in resolution S/N ratio and dynamic range through internal development of imaging sensors.
Furthermore, we also provide reliably high-quality images, through reductions to typical digital issues like blur and false coloration without using a low-pass filter.


  • Applying “functional materials” and varied key device technologies (mechanical/electronic/software/imaging, etc) at the highest standards

  • We have extensive expertise in imaging for the medical and printing sectors, as well as the general photography sector

Positioning of system design

We provide the ultimate system, fusing multiple technologies around a core of our unique functional materials and key devices

Jet Press 720 Example

We have maximized the performance of inkjet ink and heads through system design.
These optimizations achieve high-resolution 1200 dpi printing in a single pass, with high-speed output.

  • Through a blend of our knowledge concerning piezoelectric maters with our technologies for membrane formation/microscopic processing/high-precision work, we can rapidly design and manufacture MEMS suitable for your needs

FUJIFILM piezoelectric material traits

Applied to inkjet heads

High-resolution, long-rule, compact print heads with high-density nozzles in a 2D configuration, using inverse piezoelectric effects

Application to micro-mirrors

Realizing devices with performance out of reach for conventional piezoelectric membranes

  • We provide safe biomedical technologies through biomedical manufacturing techniques and human collagen peptides created via research into photographic film materials

  • Radiation Immunotherapy (RIT) achieved through antibody generating drugs from Perseus Proteomics/FFRI radiotherapy

  • Applying precision coating technology developed through photographic film manufacturing to external diagnostic treatment, alongside redox prevention technologies

RCP(Recombinant Peptide)

Human recombinant collagen peptides manufactured using FUJIFILM genetic engineering technologies


Developing highly-functional medicines by affixing radioisotopes to antibodies.

FUJI Drychem

External diagnostics for blood testing and diagnosis even without water.