Drachman, Nicholas
Lepoitevin, Mathilde http://orcid.org/0000-0003-0244-9939
Szapary, Hannah
Wiener, Benjamin
Maulbetsch, William
Stein, Derek http://orcid.org/0000-0001-5917-4986
Funding for this research was provided by:
Oxford Nanopore Technologies
U.S. Department of Health & Human Services | NIH | National Human Genome Research Institute (HG012938)
Article History
Received: 23 May 2022
Accepted: 7 August 2024
First Online: 4 September 2024
Competing interests
: D.S., N.D., M.L., and B.W. are listed as inventors on patents and patent applications that are licensed to Oxford Nanopore Technologies plc, in which they declare a financial interest. Prior to submitting the original version of this manuscript for publications, Brown University submitted a provisional patent application on the material described here with the following patent information: Title: NANOTIP ION SOURCES AND METHODS. Applicants: Brown University. Inventors: Derek M. Stein, Mathilde Lepoitevin, and Nicholas Drachmans. Related patent documents: WO/2021/217076, CN115667937, and EP4139687. Furthermore, authors of this manuscript are inventors on other patents relating to the same general field of study. These are: Title: System and methods for determining molecules using mass spectrometry and related techniques. Applicants: Brown University. Inventors: Derek M. Stein. Related patent documents: EP2342359, EP2851433, and WO/2010/014235 US20130233700. Title: SYSTEMS AND METHODS FOR SINGLE-ION MASS SPECTROMETRY WITH TEMPORAL INFORMATION. Applicants: Brown University. Inventors: Derek M. Stein, Nicholas Drachman, and Benjamin Wiener. Related patent documents: WO/2022/226279, CN117546269, EP4327352, KR1020240026444, JP2024519194. Title: NANOTIP ION SOURCES AND METHODS. Applicants: Brown University Inventors: Derek M. Stein, Mathilde Lepoitevin, and Nicholas Drachman. Related patent documents: WO/2021/217076, CN115667937, US20230298878. Apart from this, the authors declare no competing interests.