1. |
- Eriksson, Leif A., 1964-, et al.
(author)
-
Tetrazole derivatives as cytochrome p450 inhibitors
- 2019
-
Patent (pop. science, debate, etc.)abstract
- According to the invention there is provided a compound of formula I, wherein R1 and R2 have meanings given in the description, which compounds are useful in the treatment of skin disorders and other diseases.
|
|
2. |
|
|
3. |
- Abi Ghaida, Fatima, et al.
(author)
-
Enzymatic N2 activation : general discussion
- 2023
-
In: Faraday discussions. - : Royal Society of Chemistry. - 1359-6640 .- 1364-5498. ; 243, s. 287-295
-
Journal article (pop. science, debate, etc.)
|
|
4. |
|
|
5. |
- Antzutkin, Oleg, et al.
(author)
-
Ionic-liquid-based lubricants and lubrication additives comprising ions
- 2012
-
Patent (pop. science, debate, etc.)abstract
- Anti-wear and friction-reducing lubricants and additives to lubricants for both ferrous and non-ferrous materials with/without DLC (diamiond-like-coatings) or graphene-based coatings, which are halogen free boron based ionic liqs. comprising a combination of an anion chosen from a mandelato borate anion, a salicylato borate anion, an oxalato borate anion, a malonato borate anion, a succinato borate anion, a glutarato borate anion and an adipato borate anion, with at least one cation selected from a tetraalkylphosphonium cation, a choline cation, an imidazolium cation and a pyrrolidinium cation, wherein said at least one cation has at least one alkyl group substituent with the general formula CnH2n+1 , wherein 1≤n≤80. Advantages of the invention include that it provides halogen free ionic liqs. for lubrication and that sensitivity for hydrolysis is reduced.
|
|
6. |
|
|
7. |
- Bako, [unknown], et al.
(author)
-
Discussion
- 2009
-
In: Faraday Discussions. - 1364-5498. ; 141, s. 443-465
-
Journal article (pop. science, debate, etc.)
|
|
8. |
- Borga, Magnus, et al.
(author)
-
Improvement in Magnetic Resonance Imaging Relating to Correction of Chemical Shift Artifact and Intensity Inhomogeneity
- 2011
-
Patent (pop. science, debate, etc.)abstract
- Present invention discloses systems and methods for improvement of magnetic resonance images. Correction of a chemical shift artefact in an image acquired from a magnetic resonance imaging system is obtained by a system and a method involving iterative - compensation for the misregistration effect in an image domain. Correction of an intensity inhomogeneity in such images is obtained by a system and a method involving locating voxels corresponding to pure adipose tissue and estimating correction field from these points.
|
|
9. |
- Cao, Danfeng, 1991-, et al.
(author)
-
Biohybrid Variable-Stiffness Soft Actuators that Self-Create Bone
- 2022
-
In: International conference on Electromechanically Active Polymer(EAP) transducers & artificial muscles, Tuscany, June 7-9, 2022. - : EuroEAP 2022.
-
Conference paper (pop. science, debate, etc.)abstract
- We herein describe the fabrication, optimisation and characterisation of a biohybrid variable stiffness actuator that creates its own bone. By combining the electroresponsive properties of polypyrrole (PPy) with the compliant response of alginate gels functionalised with cell-derived plasma membrane nanofragments (PMNFs) it was possible to obtain bio-induced variable stiffness actuators. When the PMNFs were incubated into MEM, i.e. exposure to Ca, this caused the formation of calcium-phosphate minerals (i.e. amorphous calcium phosphate and hydroxyapatite) in the alginate gel, resulting in a more rigid layer and thus reducing and finally impeding the movement of the actuator, locking it in a fixed position within only 2 days. These actuators could morph in various, pre-programmed shapes and change their properties from soft to rigid. Adding different patterns to the actuator allowed locking the device in a predetermined shape without energy consumption, facilitating its application as soft-to-hard robotics as a biohybrid variant of so-called 4D manufacturing. The devices could wrap around and integrate into bone by the induced mineralisation in and on the gel layer. This illustrates its use as a potential tool to repair bone or in bone tissue engineering.
|
|
10. |
|
|