(1-Aminoethylidene)bisphosphonic acid (CAS 15049-85-1)
(1-Aminoethylidene)bisphosphonic acid (CAS:
15049-85-1) has molecular formula C2H9NO6P2 and molecular weight 205.04 g/mol. This compound has been the subject of numerous scientific investigations due to its structural features and practical utility in synthetic chemistry and industrial processes. View product details →
Product Background
This comprehensive research profile examines the scientific literature surrounding (1-Aminoethylidene)bisphosphonic acid.
Key Research Findings
- To demonstrate that the current strategy works, anti-miR-34a was electrografted on only one of three electrodes by electropolymerization of pyrrole on the specific electrode.
- The findings reveal that a stronger Broensted acid in most cases behaves as a stronger Lewis acid as well.
- SARS-CoV-2 demonstrated that the speed of our response is critical, as each day of delay permitted exponential growth and dispersion of the virus.
Detailed Literature Analysis
Below are the top-ranked research papers for (1-Aminoethylidene)bisphosphonic acid, presented with bibliographic details and scientific abstracts.
Synthetic Chemistry
1. Are Strong Bronsted Acids Necessarily Strong Lewis Acids?
The Broensted and Lowry acid base theory is based on the capacity of proton donation or acceptance (in the presence or absence of a solvent) whereas the Lewis acid base theory is based on the propensity of electron pair acceptance or donation. We explore through DFT calculation the obvious question whether these two theories are in conformity with
Biological & Pharmacological Studies
2. A Global Nucleic Acid Observatory for Biodefense and Planetary Health
The spread of pandemic viruses and invasive species can be catastrophic for human societies and natural ecosystems. SARS-CoV-2 demonstrated that the speed of our response is critical, as each day of delay permitted exponential growth and dispersion of the virus. Here we propose a global Nucleic Acid Observatory (NAO) to monitor the relative frequen
Other Research
3. ACID: Action-Conditional Implicit Visual Dynamics for Deformable Object Manipulation
Manipulating volumetric deformable objects in the real world, like plush toys and pizza dough, bring substantial challenges due to infinite shape variations, non-rigid motions, and partial observability. We introduce ACID, an action-conditional visual dynamics model for volumetric deformable objects based on structured implicit neural representatio
4. Using electropolymerization based doping for electro-addressable functionalization of a multi-electrode array probe for nucleic acid detection
Here, we report a facile method for electro-addressable functionalization of a probe comprising of closely spaced three individually addressable carbon fiber electrodes for detection of nucleic acids. First, a multi electrode array probe comprising three adjacent carbon fiber electrodes was fabricated through pulling a three-barrel glass capillary
5. Acid zeta function and ajoint acid zeta function
In this paper we set up the theory of acid zeta function and ajoint acid zeta function, based on the theory, we point out a reason to doubt the truth of the Riemann hypothesis and also as a consequence, we give out some new RH equivalences.
Conclusion
The research literature on (1-Aminoethylidene)bisphosphonic acid demonstrates sustained scientific interest, with publications continuing through 0. The compound serves as an important building block in synthetic chemistry and has been explored for various applications. Researchers and industrial users can view detailed specifications or submit an inquiry for pricing and availability.
Data Sources: PubMed/MEDLINE, CrossRef. 5 papers analyzed. Last updated: 2026-05-25. This article is automatically generated from peer-reviewed research data.