Paper/Nano Technology Books

Micro and Nanotechnology in Paper Manufacturing

Author- Dr. Mahendra Patel, (530 pages ); ISBN No. 978-81-923542-2-4);

Price: $ (USA) 120 + delivery charge

Minerals in Paper Manufacturing

(Author- Dr. Mahendra Patel, 32 chapters, 350 pages ; ISBN No. 978-81-923542-1-7).

Price: $ (USA) 65 + delivery charge

Operations and Recycling in Paper Mills with Micro and Nano Concepts

Author- Dr. Mahendra Patel; (22 chapters- 500 pages); ISBN No.978-81-923542-3-1)

Price: $ (USA) 150 + delivery charge

Materials for Better Productivity in Pulp and Paper Mills: Metals and Polymers

(Author: Dr. Mahendra Patel; 616 pages; 36 chapters; ISBN No.978-81-923542-5-5)

Price- US $230+ Cost of dispatch.

Ceramics in Paper Manufacturing including Advanced and Nano Materials

(Author: Dr. Mahendra Patel, 420 pages; 32 chapters, ISBN No: 978-81-923542-4-8.)

Price: $ (USA) 220 + delivery charge

Contact: industrypaper@yahoo.co.uk

patel@nanoindustry.in

:Tel:91(0)9871787870

Payment possible through Paypal/Bank transfer/Cheque

Up to 30% reduction to specialised Organisations/Individuals

Sent by Registered Airmail through Post office after confirmation of payment

Nanotechnology Update

Pulp, Paper and Packaging industries

Date	News
01/05/2021	Nanoparticle-based “Nanotraps” can destroy Corona virus within the body
16/02/2021	Antimicrobial Paper Embedded with Nanoparticles as Spread-Breaker for Corona Virus
27/09/2018	Cellulose Nanocrystals as Advanced Barrier Coatings for Food Packaging
28/05/2012	Hydrogen from Paper Mill waste water with Nanotechnology
30/04/2012	Micro and Nanotechnology in Formation and Control of Harsh Environments
02/04/2012	Nanofibres produced from sludge
13/03/2012	Nanotechnology in Bioenergy
28/02/2012	Composites from microfibrillated cellulose-reinforced thermoset starch
28/02/2012	Montmorillonite nanocomposite nanofibre mats
28/02/2012	Silicon nitride composite reinforced by SiC nanoparticles
13/02/2012	First biorefinery in the world
13/02/2012	Next generation weight xP actuators
03/02/2012	Biorefinery plant
03/02/2012	Biofuel from Grass
03/02/2012	Nanocrystalline Cellulose demonstration plant
24/01/2012	Starch Nanocrystals for Bio-Based Flexible Packaging
24/01/2012	First Commercial Lignoboost Plant
24/01/2012	Pitch detackification with natural and modified talcs
24/01/2012	Microstructure simulation of paper forming
09/01/2012	Solar energy to generate gas from Wastewater

12/04/2011

Electron Microscopy enabling crystal structure at atomic level

One downside of electron microscopy is that the electron beam can damage the materials being imaged by breaking bonds and changing molecular structures. But Jamie Warner and his colleagues at the University of Oxford, UK, used this to their advantage, and obtained unprecedented pictures of crystals forming at the atomic level. They directed an 80-kilovolt electron beam through a thin film of 'peapods'; carbon nanotubes containing spheres of carbon atoms called buckyballs. Each buckyball contained two atoms of praseodymium. Prolonged exposure to the beam caused the buckyballs to coalesce, forming an inner nanotube. The praseodymium atoms were released into this inner nanotube, allowing them to form praseodymium carbide crystals. (Source: Nature, Vol.470,p.142;10 Feb. 2011)

July 2021

Science et Séjour en France

Electron Microscopy enabling crystal structure at atomic level