Syntheses of gem-dihalocyclopropanes and their use in organic synthesis

Toughening of photo-curable polymer networks: a review

State-of-the-Art and Future Challenges of UV Curable Polymer-Based Smart Materials for Printing Technologies

(1989). Bioactivation of Nephrotoxic Haloalkenes by Glutathione Conjugation: Formation of Toxic and Mutagenic Intermediates by Cysteine Conjugate β-Lyase. Drug Metabolism Reviews: Vol. 20, No. 1, pp. 43-83.

Bioactivation of Nephrotoxic Haloalkenes by Glutathione Conjugation: Formation of Toxic and Mutagenic Intermediates by Cysteine Conjugate β-Lyase

3D printing (also called "additive manufacturing" or "rapid prototyping") is able to translate computer-aided and designed virtual 3D models into 3D tangible constructs/objects through a layer-by-layer deposition approach. Since its introduction, 3D printing has aroused enormous interest among researchers and engineers to understand the fabrication process and composition-structure-property correlation of printed 3D objects and unleash its great potential for application in a variety of industrial sectors. Because of its unique technological advantages, 3D printing can definitely benefit the field of microrobotics and advance the design and development of functional microrobots in a customized manner. This review aims to present a generic overview of 3D printing for functional microrobots. The most applicable 3D printing techniques, with a focus on laser-based printing, are introduced for the 3D microfabrication of microrobots. 3D-printable materials for fabricating microrobots are reviewed in detail, including photopolymers, photo-crosslinkable hydrogels, and cell-laden hydrogels. The representative applications of 3D-printed microrobots with rational designs heretofore give evidence of how these printed microrobots are being exploited in the medical, environmental, and other relevant fields. A future outlook on the 3D printing of microrobots is also provided.

3D printing of functional microrobots

Photopolymerization of hybrid monomers: Part I: Comparison of the performance of selected photoinitiators in cationic and free-radical polymerization of hybrid monomers

New photoinitiators for cationic polymerization

One-component cationic photoinitiators based on coumarin scaffold iodonium salts as highly sensitive photoacid generators for 3D printing IPN photopolymers under visible LED sources

Synthese a partir du trichloroethylene et de l'hydroxyde de sodium en presence de chlorure de (benzyl triethyl) ammonium-diethyl ether

Trichloroethylene in organic synthesis. I: A new, catalytic synthesis of dichloroacetylene

Photopolymerization of hybrid monomers, Part II: Determination of relative quantum efficiency of selected photoinitiators in cationic and free-radical polymerization of hybrid monomers

Roman Popielarz

Papers

Photopolymerization of hybrid monomers: Part I: Comparison of the performance of selected photoinitiators in cationic and free-radical polymerization of hybrid monomers

New photoinitiators for cationic polymerization

One-component cationic photoinitiators based on coumarin scaffold iodonium salts as highly sensitive photoacid generators for 3D printing IPN photopolymers under visible LED sources

Trichloroethylene in organic synthesis. I: A new, catalytic synthesis of dichloroacetylene

Photopolymerization of hybrid monomers, Part II: Determination of relative quantum efficiency of selected photoinitiators in cationic and free-radical polymerization of hybrid monomers