@article{ArtmannDigelLinderetal.2008, author = {Artmann, Gerhard and Digel, Ilya and Linder, Peter and Porst, Dariusz}, title = {Mechanism of haemoglobin sensing body temperature}, series = {Tissue Engineering Part A. 14 (2008), H. 5}, journal = {Tissue Engineering Part A. 14 (2008), H. 5}, isbn = {1937-3341}, pages = {754 -- 754}, year = {2008}, language = {en} } @article{ArtmannBaeumlerVoigtetal.2000, author = {Artmann, Gerhard and B{\"a}umler, H. and Voigt, A. and Mitl{\"o}hner, R. [u.a.]}, title = {Plastic behaviour of polyelectrolyte microcapsules derived from colloid templates. B{\"a}umler, H., Artmann, Gerhard Michael; Voigt, A., Mitl{\"o}hner, R., Neu, B., Kiesewetter, H.}, series = {Journal of Microencapsulation. 17 (2000), H. 5}, journal = {Journal of Microencapsulation. 17 (2000), H. 5}, isbn = {1464-5246}, pages = {651 -- 655}, year = {2000}, language = {en} } @article{ArtmannBurnsCanavesetal.2004, author = {Artmann, Gerhard and Burns, Laura and Canaves, Jaume M. and Temiz Artmann, Ayseg{\"u}l}, title = {Circular dichroism spectra of human hemoglobin reveal a reversible structural transition at body temperature}, series = {European Biophysics Journal. 33 (2004), H. 6}, journal = {European Biophysics Journal. 33 (2004), H. 6}, isbn = {1432-1017}, pages = {490 -- 496}, year = {2004}, language = {en} } @article{Artmann1986, author = {Artmann, Gerhard}, title = {A microscopic photometric method for measuring erythrocyte deformability. Artmann, Gerhard Michael}, series = {Clinical Hemorheology. 6 (1986)}, journal = {Clinical Hemorheology. 6 (1986)}, isbn = {0271-5198}, pages = {617 -- 627}, year = {1986}, language = {en} } @article{Artmann1996, author = {Artmann, Gerhard}, title = {2nd International Conference on Medical Biorheology (ICMB). Shanghai, China, September 13-15, 1995. Shi, Young de, Artmann, Gerhard Michael, Meiselman, Herbert J.}, series = {Biorheology. 33 (1996), H. 6}, journal = {Biorheology. 33 (1996), H. 6}, isbn = {0006-355x}, pages = {505 -- 507}, year = {1996}, language = {en} } @article{Artmann1995, author = {Artmann, Gerhard}, title = {Microscopic photometric quantification of stiffness and relaxation time of red blood cells in a flow chamber. Artmann, Gerhard Michael}, series = {Biorheology. 32 (1995), H. 5}, journal = {Biorheology. 32 (1995), H. 5}, isbn = {0006-355x}, pages = {553 -- 570}, year = {1995}, language = {en} } @article{Artmann2000, author = {Artmann, Gerhard}, title = {Cellular engineering - a challenge for engineers? / Artmann, G. M.}, series = {Biomedizinische Technik = Biomedical Engineering. 45 (2000), H. s1}, journal = {Biomedizinische Technik = Biomedical Engineering. 45 (2000), H. s1}, isbn = {1862-278X}, pages = {449}, year = {2000}, language = {en} } @article{ArreolaOberlaenderMaetzkowetal.2017, author = {Arreola, Julio and Oberl{\"a}nder, Jan and M{\"a}tzkow, M. and Keusgen, Michael and Sch{\"o}ning, Michael Josef}, title = {Surface functionalization for spore-based biosensors with organosilanes}, series = {Electrochimica Acta}, volume = {241}, journal = {Electrochimica Acta}, publisher = {Elsevier}, address = {Amsterdam}, issn = {0013-4686}, doi = {10.1016/j.electacta.2017.04.157}, pages = {237 -- 243}, year = {2017}, abstract = {In the present work, surface functionalization of different sensor materials was studied. Organosilanes are well known to serve as coupling agent for biomolecules or cells on inorganic materials. 3-aminopropyltriethoxysilane (APTES) was used to attach microbiological spores time to an interdigitated sensor surface. The functionality and physical properties of APTES were studied on isolated sensor materials, namely silicon dioxide (SiO2) and platinum (Pt) as well as the combined material on sensor level. A predominant immobilization of spores could be demonstrated on SiO2 surfaces. Additionally, the impedance signal of APTES-functionalized biosensor chips has been investigated.}, language = {en} } @article{ArreolaMaetzkowDuranetal.2016, author = {Arreola, Julio and M{\"a}tzkow, Malte and Dur{\´a}n, Marlena Palomar and Greeff, Anton and Keusgen, Michael and Sch{\"o}ning, Michael Josef}, title = {Optimization of the immobilization of bacterial spores on glass substrates with organosilanes}, series = {Physica status solidi (A) : Applications and materials science}, volume = {213}, journal = {Physica status solidi (A) : Applications and materials science}, number = {6}, publisher = {Wiley-VCH}, address = {Weinheim}, issn = {1862-6319}, doi = {10.1002/pssa.201532914}, pages = {1463 -- 1470}, year = {2016}, abstract = {Spores can be immobilized on biosensors to function as sensitive recognition elements. However, the immobilization can affect the sensitivity and reproducibility of the sensor signal. In this work, three different immobilization strategies with organosilanes were optimized and characterized to immobilize Bacillus atrophaeus spores on glass substrates. Five different silanization parameters were investigated: nature of the solvent, concentration of the silane, silanization time, curing process, and silanization temperature. The resulting silane layers were resistant to a buffer solution (e.g., Ringer solution) with a polysorbate (e.g., Tween®80) and sonication.}, language = {en} } @article{ArreolaKeusgenWagneretal.2019, author = {Arreola, Julio and Keusgen, Michael and Wagner, Torsten and Sch{\"o}ning, Michael Josef}, title = {Combined calorimetric gas- and spore-based biosensor array for online monitoring and sterility assurance of gaseous hydrogen peroxide in aseptic filling machines}, series = {Biosensors and Bioelectronics}, volume = {143}, journal = {Biosensors and Bioelectronics}, number = {111628}, publisher = {Elsevier}, address = {Amsterdam}, issn = {0956-5663}, doi = {10.1016/j.bios.2019.111628}, year = {2019}, language = {en} }