Plastic antibody for the recognition of chemical warfare agent sulphur mustard

Boopathi, Mannan; Suryanarayana, M.; Nigam, Aditya; Pandey, P. N.; Ganesan, K.; Singh, Beer; Sekhar, K.

doi:10.1016/j.bios.2006.01.036

Cited by 38 publications

(27 citation statements)

References 32 publications

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“…It is evident from Table 1 that compared to other types of MIP beads used in batch adsorption [2,16,19,[30][31][32][33][34] the presently prepared submicron/nanoscale beads showed higher or almost comparable [35,36] adsorption selectivity. However, the overall comparative study points out that the reduction in size to submicron/nanoscale has greatly improved the selectivity property of the prepared beads.…”

Section: Adsorption Capacity and Selectivity Of The Prepared Submicromentioning

confidence: 82%

Highly improved adsorption selectivity of L-phenylalanine imprinted polymeric submicron/nanoscale beads prepared by modified suspension polymerization

Shah

Ul-Islam

et al. 2011

Korean J. Chem. Eng.

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Molecularly imprinted polymer (MIP) submicron/nanoscale beads selective for L-Phenylalanine (L-Phe) and D-Phe as well as non-imprinted beads were prepared by modified suspension polymerization involving agitation of the reaction mixture at high rotation speed under safe radical conditions. The effects of pH, template and concentration of racemate solution on the performance of the phenylalanine (Phe) imprinted polymeric submicron/nanoscale beads were studied. L-Phe-imprinted submicron/nanoscale beads prepared for the first time by modified suspension polymerization showed enhanced adsorption capacity and selectivity over those of D-Phe imprinted and non-imprinted beads. Maximum adsorption capacity, 0.35 mg/g, and selectivity, 1.62, of L-Phe imprinted submicron/nanoscale beads were higher than the adsorption capacities, 0.30 and 0.19 mg/g, and selectivities, 1.59 and 1.02, of D-Phe imprinted and nonimprinted submicron/nanoscale beads, respectively. FE-SEM analyses revealed that L-and D-Phe imprinted beads were larger (100 nm-1.5 µm) than non-imprinted nanobeads (100-800 nm). 13 C CP-MAS NMR spectroscopy helped in correlating the bead sizes and the extent of reaction during polymerization. Similarly, FT-IR study was used for evaluation of structural characteristics of the prepared Phe-imprinted and non-imprinted beads. The preparation of Phe-imprinted submicron/nanoscale beads with improved adsorption and separation properties and the study of effect of template on the size and performance of the prepared beads are suitable from both economical and research point of view in MIP field.

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Section: Adsorption Capacity and Selectivity Of The Prepared Submicromentioning

confidence: 82%

Highly improved adsorption selectivity of L-phenylalanine imprinted polymeric submicron/nanoscale beads prepared by modified suspension polymerization

Shah

Ul-Islam

et al. 2011

Korean J. Chem. Eng.

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“…In a similar way, NIP was also subjected to adsorption studies in order to know its ricin adsorbing ability and also to find out imprinting efficiency of the Ricin-MIP. The imprinting efficiency was calculated by adopting an earlier reported method (Boopathi et al, 2006).…”

Section: Ricin Recognition Studies With Ricin-mip and Nipmentioning

confidence: 99%

“…Moreover, MIPs are also used for many purposes such as adsorption of 17␤-estradiol (Wei and Mizaikoff, 2007), reflectometric interference spectroscopic sensing of atrazine (Belmont et al, 2007), separation of ephedrine enantiomers (Guerreiro et al, 2008), hanging mercury drop MIP modified electrode for differential pulse cathodic stripping voltammetric analysis of creatine (Lakshmi et al, 2007), fructosyl valine recognition (Rajkumar et al, 2007), solid phase extraction of photosynthesisinhibiting herbicides (Breton et al, 2007), biorecognition solvent extraction agents (Castell et al, 2006), recognition of atrazine (Lavignac et al, 2006), fabrication of bilirubin-specific sensor (Huang et al, 2007), adsorption study of dansylated amino acids by surface plasmon resonance (Li and Husson, 2006), cholesterol recognition (Boonpangrak et al, 2006), recognition of copper (Baghel et al, 2007) recognition of chemical warfare agent sulfur mustard (Boopathi et al, 2006), recognition of ochratoxin A (Turner et al, 2004) and also in catalysing a trans esterification process (Meng et al, 2004).…”

Section: Introductionmentioning

confidence: 99%

Molecularly imprinted nanopatterns for the recognition of biological warfare agent ricin

Pradhan¹,

Boopathi²,

Kumar³

et al. 2009

Biosensors and Bioelectronics

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“…Creation of molecularly imprinted fibers (MIFs) with molecular recognition capability through fiber spinning and/or surface modification techniques and the resulting fibrous structures can be used in many fields. The three dimensional molecular imprinting approach has been effective for the construction of synthetic receptors for chemical warfare agent structures and metal ions [25,26]. Molecular Imprinted Polymer (MIP) Networks [27] was developed based on graft polymerization technology to prepare MIPs on flat surfaces that allows characterizing the network's physical and chemical properties.…”

Section: Molecularly Imprinted Nano-fibers On Fabrics With Recognitiomentioning

confidence: 99%

A Review on NBC Body Protective Clothing

Boopathi¹,

Singh²,

Vijayaraghavan³

2008

TOTEXTILEJ

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Body protective clothing and suits against NBC agents are playing vital role in the NBC defence during war and training scenarios. Hence, reviewing about the past, present and expected future development in this NBC protective clothing area is an important task. This review brings out a sequence related to the NBC protective clothing, their type, various materials available for the development of NBC clothing, their evaluation procedures, washing methodologies, decontamination methods. Moreover, the futuristic trends in NBC protective clothing such as detection and decontamination integrated NBC protective clothing based on electrospun nanofiber technology and molecularly imprinted polymer technology are also reviewed and discussed.

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Plastic antibody for the recognition of chemical warfare agent sulphur mustard

Cited by 38 publications

References 32 publications

Highly improved adsorption selectivity of L-phenylalanine imprinted polymeric submicron/nanoscale beads prepared by modified suspension polymerization

Highly improved adsorption selectivity of L-phenylalanine imprinted polymeric submicron/nanoscale beads prepared by modified suspension polymerization

Molecularly imprinted nanopatterns for the recognition of biological warfare agent ricin

A Review on NBC Body Protective Clothing

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