My research field or area of interest innanotechnology
Supramolecular Nanoassembly and its Potential , Alok Pandya, Heena Goswami, Anand Lodha and Pinkesh Sutariya, Advanced Functional Materials, Chapter-8, pages 367–398, DOI: 10.1002/9781118998977.ch8
1 N Ansari, A Lodha,A Pandya, SK Menon Determination of cause of death using paper - based microfluidic device as a colorimetric probe , Analytical Methods, 2017, 9(38), 5632- 5639 (Impact Factor: 1.9)
2 N Ansari, A Lodha, SK Menon, Vitreous humor in relation to Time Since Death: A Review, European Journal of Forensic Science, 2017 2017; 4(3), 1-9.
3 N Ansari, A Lodha, M Mehta, SK Menon, A Real-time Smartphone Facilitated Time since Death Estimation from Vitreous Humor Protein, Australian Journal of Forensic Sciences, Accepted Manuscript (Impact Factor: 0.778)
4 RK Shukla, AS Lodha, S Das, Stature Estimation from Footprint: A Study on Central Indian Population, European Journal of Forensic Science, 2017, 4 (2), 1-9
5 A Lodha, N Ansari, S Shah, S K Menon, Isolation of PCR Ready - Human DNA using copper nanoparticles from Skeletal Remains, Forensic Science International, 2017, 270, 146-152 (Impact Factor: 1.989).
6 A Lodha, N Ansari, T Prajapati, MV Rao, SK Menon, Novel Approach to Determine Postmortem Interval from ATPase Activity, Australian Journal of Forensic Sciences, 2017, 49(1) 22-30 (Impact Factor: 0.778).
7 N Ansari, A Lodha, SK Menon, Smart platform for the time since death determination from vitreous humor cysteine, Biosensors and Bioelectronics, 2016, 86, 115–121 (Impact Factor: 7.780).
8 A Lodha, M Mehta, MN Patel, SK Menon, Facial Soft Tissue Thickness Database of Gujarati Population for Forensic Craniofacial Reconstruction, Egyptian Journal of Forensic Sciences, 2016, 6 (2), 126–134 (Impact Factor: awaited).
9 A Lodha, A Pandya, R Shukla, Nanotechnology: An Applied and Robust Approach for Forensic Investigation, Forensic Research& Criminology International Journal, Anand Lodha, Ph.D. 2016, 2 (1), 1-4 (DOI: 10.15406/frcij.2016.02.0004444)
10 PG Sutariya, A Pandya, A Lodha, SK Menon, A simple and rapid creatinine sensing via DLS selectivity, using calix  arene thiol functi onalized gold nanoparticles, Talanta, 2016, 147, 590-597 (Impact Factor: 4.162).
11 N Ansari, A Lodha, A Pandya, PG Sutariya, SK Menon, Lab on Phone citrate cap ped silver nanosensor for lidocaine hydrochloride detection from biological matrix , Analytical Methods, 2015, 7, 9084-9091 (Impact Factor: 1.9)
12 A Lodha, A Pandya, PG Sutariya, SK Menon, A smart and rapid colorimetric method for detection of codeine sulphate, using unmodified gold nanoprobe , RSC Adv., 2014, 4, 50443-50448 (Impact Factor: 3.108).
13 PG Sutariya, A Pandya, A Lodha, SK Menon, A unique fluorescence biosensor for selective detection of tryptophan and histidine, Analyst, 2014, 139, 4794 -4798 (Impact Factor: 3.885).
14 PG Sutariya, A Pandya, A Lodha, SK Menon, A pyrenyl linked calixarene fluorescence probe for recognition of ferric and phosphate ions, RSC advance, 2014, 4, 34922-34926 (Impact Factor: 3.108).
15 A Pandya, PG Sutaria, A Lodha, H Goswami, SK Menon, Host-guest mediated sensing of biologically relevant small molecules using supramolecular nanoassembly , Molecular Cytogenetics, 2014, 7(Suppl 1), P80 (Impact Factor: 1.506).
16 A Lodha, A Pandya, PG Sutariya, SK Menon, Melamine modified gold nanoprobe for “ on spot” colorimetric recognition of clonazepam from biological specimens , Analyst, 2013,138, 5411-5416 (Impact Factor: 3.885).
17 PG Sutariya, A Pandya, A Lodha, SK Menon, Fluorescence switch on – off– on receptor constructed of quinoline allied calixarene for selective recognition of CuP 2+P from blood serum and FP−P from industrial waste water, Analyst, 2013, 138, 2531-2535 (Impact Factor: 3.885).
18 A Pandya, PG Sutariya, A Lodha, SK Menon, A novelcalix  arenethiol functionalized silver nanoprobe for selective recognition of ferric ion with nanomolar sensitivity via DLS selectivity in human biological fluid", Nanoscale, 2013, 5, 2364-2371 (Impact Factor: 7.367).
19 SK Menon, NR Modi, A Pandya, A Lodha, A ultrasensitive and specific detection of dimethoate using p -sulphonatocalixresorcinarene functionalized silver nanoprobe in aqueous solution, RSC advance,2013,3, 10623-10627 (Impact Factor: 3.108).
20 A Pandya, H Goswami, A Lodha, SK Menon, A novel nanoaggregationdetection technique of TNT using selective and ultrasensitive nanocurcumin as a probe, 39TAnalyst39T, 2012, 39T13739T, 1771-1774 (Impact Factor: 3.885).
Researchgroup, Institute, University, School, Company name
Mody University of Science and Technology
Researchgroup, Institute, Company, University, School webpage
Welcome! Nanopaprika was cooked up by Hungarian chemistry PhD student in 2007. The main idea was to create something more personal than the other nano networks already on the Internet. Community is open to everyone from post-doctorial researchers and professors to students everywhere.
There is only one important assumption: you have to be interested in nano!
Nanopaprika is always looking for new partners, if you have any idea, contact me at email@example.com