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Table representation of search results timeline featuring number of search results per year.

Year Number of Results
1967 1
1969 1
1970 1
1973 2
1974 3
1979 1
1981 2
1983 3
1984 2
1986 5
1987 3
1988 7
1989 6
1990 9
1991 14
1992 15
1993 18
1994 18
1995 34
1996 25
1997 55
1998 64
1999 104
2000 140
2001 171
2002 187
2003 375
2004 589
2005 666
2006 696
2007 863
2008 900
2009 996
2010 1119
2011 1201
2012 1253
2013 1213
2014 1274
2015 1289
2016 1533
2017 1572
2018 2035
2019 2315
2020 2818
2021 3712
2022 4548
2023 4129
2024 2948
2025 2624
2026 1112

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39,871 results

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Page 1
Nano-/microfabrication of biomaterials.
Kang IK, Ito Y, Kwon OH. Kang IK, et al. Biomed Res Int. 2014;2014:963972. doi: 10.1155/2014/963972. Epub 2014 May 27. Biomed Res Int. 2014. PMID: 24971364 Free PMC article. No abstract available.
Cell-Like Micromotors.
Esteban-Fernández de Ávila B, Gao W, Karshalev E, Zhang L, Wang J. Esteban-Fernández de Ávila B, et al. Acc Chem Res. 2018 Sep 18;51(9):1901-1910. doi: 10.1021/acs.accounts.8b00202. Epub 2018 Aug 3. Acc Chem Res. 2018. PMID: 30074758
In the past decade, versatile micro- and nanosized machines have emerged as active agents for large-scale detoxification, sensing, microfabrication, and many other promising applications. Micromachines have also been envisioned as the next advancement in dynamic the …
In the past decade, versatile micro- and nanosized machines have emerged as active agents for large-scale detoxification, sensing, microf
Microfabricated electrochemical sensing devices.
Sassa F, Biswas GC, Suzuki H. Sassa F, et al. Lab Chip. 2020 Apr 21;20(8):1358-1389. doi: 10.1039/c9lc01112a. Epub 2020 Mar 4. Lab Chip. 2020. PMID: 32129358 Review.
Electrodes, which constitute major components of electrochemical devices, can be formed by various microfabrication techniques, and integration of the same (or different) components for that purpose is not difficult. ...
Electrodes, which constitute major components of electrochemical devices, can be formed by various microfabrication techniques, and i …
Microfabricated devices for oral drug delivery.
Nielsen LH, Keller SS, Boisen A. Nielsen LH, et al. Lab Chip. 2018 Aug 7;18(16):2348-2358. doi: 10.1039/c8lc00408k. Lab Chip. 2018. PMID: 29975383 Free article. Review.
Here, we review the newest development in top-down microfabricated devices for oral drug delivery with coverage of the aspects of design, choice of material and fabrication techniques. ...In addition, we discuss the future perspectives for microfabricated devices... …
Here, we review the newest development in top-down microfabricated devices for oral drug delivery with coverage of the aspects of des …
Micro-optics for microfluidic analytical applications.
Yang H , Gijs MAM . Yang H , et al. Chem Soc Rev. 2018 Feb 19;47(4):1391-1458. doi: 10.1039/c5cs00649j. Chem Soc Rev. 2018. PMID: 29308474 Review.
Micro-optical elements, made by a variety of microfabrication techniques, advantageously contribute to the performance of an analytical system, especially when the latter has microfluidic features. ...
Micro-optical elements, made by a variety of microfabrication techniques, advantageously contribute to the performance of an analytic …
Organ-on-a-Chip Technology for Reproducing Multiorgan Physiology.
Lee SH, Sung JH. Lee SH, et al. Adv Healthc Mater. 2018 Jan;7(2). doi: 10.1002/adhm.201700419. Epub 2017 Sep 25. Adv Healthc Mater. 2018. PMID: 28945001 Review.
Therefore, there is a need for a novel in vitro model system that can provide accurate information for evaluating the drug efficacy and toxicity through a closer recapitulation of the in vivo system. Recently, the idea of using microtechnology for mimicking the microscale …
Therefore, there is a need for a novel in vitro model system that can provide accurate information for evaluating the drug efficacy and toxi …
Magnetic helical micromachines.
Peyer KE, Tottori S, Qiu F, Zhang L, Nelson BJ. Peyer KE, et al. Chemistry. 2013 Jan 2;19(1):28-38. doi: 10.1002/chem.201203364. Epub 2012 Nov 30. Chemistry. 2013. PMID: 23203403
Microdevices for nanomedicine.
Hashimoto M, Tong R, Kohane DS. Hashimoto M, et al. Mol Pharm. 2013 Jun 3;10(6):2127-44. doi: 10.1021/mp300652m. Epub 2013 Apr 10. Mol Pharm. 2013. PMID: 23521558 Review.
Their potential to accurately reproduce the physiological environments that occur in vivo could reduce dependence on animal models in pharmacological testing. Technologies in microfabrications and microfluidics are widely applicable for nanomaterial synthesis and for the d …
Their potential to accurately reproduce the physiological environments that occur in vivo could reduce dependence on animal models in pharma …
Reconstitution of cell migration at a glance.
Garcia-Arcos JM, Chabrier R, Deygas M, Nader G, Barbier L, Sáez PJ, Mathur A, Vargas P, Piel M. Garcia-Arcos JM, et al. J Cell Sci. 2019 Feb 11;132(4):jcs225565. doi: 10.1242/jcs.225565. J Cell Sci. 2019. PMID: 30745333 Review.
39,871 results
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