not environmental friendly but also pose a health hazard to workers in the factory,5
final end users and nature.
[003] Considering the safety hazard issue the existing plastic, acrylic, polyvinyl chloride
cards are troublesome and inconvenient.
[004] The conventional paper wallets used for storing public and private keys are printed
on a single layer paper sheet using a printer, which is a very unsecured way of10
using a cold storage for holding transfer values of the tokens, and damages to it
could lead to a loss of the keys stored in the paper wallet, thereby not allowing to
extract the tokens from the bitcoin addresses and furthermore the conventional
paper wallets do not allow token address reuse and token address change. Hence,
these conventional paper wallet using low security for the safety of the encrypted15
key pairs need to be more secured with an increased layers of security to make the
long term storage possible. These paper wallets are not connected to any electronic
devices and use static QR codes printed for the key-pair generated through the
encrypting protocols
[005] However, each of these loyalty reward programs card have a problem and the20
available paper wallet is not dynamic with real time data, and also with no
connectivity to the electronic devices and uses QR code generated for private keys
which is printed on a single sheet of paper as wallet using a printer, making it
vulnerable to theft with no security layer added to its physical structure with no
interoperability with other networks for token rewards and an exchange for tokens25
to be stalked. Therefore, there is a need to develop the present invention that will
overcome the drawbacks of the conventional loyalty program cards and paper
wallets respectively.
SUMMARY OF THE INVENTION
[006] In an aspect of the present invention, the present invention provides a security30
paper substrate comprising fiber cellulose of the pine wood pulp, and at least one
conductive dye agent, silver aluminium.
[007] In an aspect of the present invention, the present invention provides a digital
encrypted paper card authenticator and/or loyalty reward program’s wallet3
comprising numerous layers of the said paper substrate incorporating conductive5
dyes.
[008] In another aspect, the present invention provides a process for preparation of the
said conductive paper card substrate.
[009] In yet another aspect, the present invention provides a process for preparation of
the blockchain driven network of nodes linked with the conductive multi-layer10
security paper substrate comprising numerous colour coded layers of the said
paper substrate.
[010] In yet another aspect, the present invention provides a process for preparation of
digital paper card authenticator.
[011] In yet another aspect, the present invention provides a process for preparation of15
digital paper loyalty reward program’s wallet.
[012] Unless otherwise defined, all the technical and scientific terms used herein have
the same meaning as understood by one of the ordinary skill in the art to which
the invention pertains. In case of any conflict, the present document, including
definitions will control.20
DESCRIPTION OF THE INVENTION
[013] For the purpose of the following description, it is important to note that the
terminology used in the invention is for the purpose of describing particular
embodiments of the invention only, and is not at any point intended to limit the
scope of the invention in any manner. It is to be understood that the invention may25
assume various alternative variations and step sequences, except where expressly
specified to the contrary.
[014] Furthermore, the invention is not limited to various embodiments given in the
specifications. It must be noted that, as used in this specification and the appended
claims, the singular forms “a,” ”an,” ”the” include plural referents unless the30
content directs otherwise. The term “preferred” refer to the embodiments that have
certain benefits under certain circumstances. However, other embodiments can
also be preferred under the same or other circumstances. Therefore, repetition of
one of more preferred embodiments doesn’t not imply that other embodiment are4
not useful and is not intended to exclude the other embodiments from the scope5
of this invention. As used herein, the terms “comprising,” “including,” “having,”
“containing” to be understood as open-ended that is to mean including but not
limited to.
[015] Moreover, unless otherwise indicated, all numbers expressing, for example
quantities of ingredients used in the specification are to be understood as being10
modified in all instances by the term “about”, with all the percentages given in
this specification and appended claims referring to percentages by weight of the
total composition.
[016] In an aspect the present invention provides a security paper substrate comprising
fiber cellulose material having 40 to 50 % by weight of the fiber cellulose of pine15
wood pulp, 20 to 25% tracheid cells, 1 to 2 % by weight of starch, 3 to 4 %
conductive paste, 0.05 to 1% natural dye, 2 to 3% copper, 1 to 2 % titanium
dioxide.
[017] In an embodiment the fiber cellulose material is prepared from the pine wood
pulp.20
[018] In an embodiment the average length of these fibers is 2-3 mm.
[019] In an embodiment the paper substrate is having a binding conductive polymers in
the range of 4 to 6 by weight%; pH content in the range of 7 to 7.5 by weight%;
moisture content in the range of 6 to 8 by weight% and sizing material in the range
of 1 to 2 by weight%25
[020] In an embodiment the cellulose fibers of the substrate are stained with conductive
dye.
[021] In another embodiment the dye used for colour coded layers in the present
invention is selected from natural dyes like the food and plant pigments or
synthetic dyes, which include CMYK colour scheme or RGB colour scheme30
[022] In an embodiment the blockchain driven network used is a Proof of Stake
concensus mechanism along with encrypted key-value pair for authentication,
verification and rewards processing based through digital conductive paper card
stock wallet.5
[023] In another embodiment the thickness of the digital conductive authenticator paper5
card and/or wallet is 1 - 3 mm.
[024] In an embodiment the present invention provides a numerous assorted mesh of
conductive multi-layers of paper interlinked with graphene and/or carbon in the
substrate being prepared to be used as digital authenticator and/or loyalty reward
program’s wallet.10
[025] In an aspect the present invention of a digital conductive paper comprising two or
numerous layers of sheet of cellulose fiber material of pine wood pulp, along with
a thin layer of composite printed for certain connection traces alongside
conductive paper, using silver or aluminium. Wherein the said sheets are bonded
using thermal conductive adhesive to give strength and durability to the heat sinks15
and components for its extended use of various application circuitry.
[026] In an embodiment the digital paper card comprises numerous conductive layers
interlinked and fused in a mesh network connected through the varying
conductive and non-conductive traces of the circuitry for the blockchain driven
network and bonded to each other wherein the sensing coded imagery is generally20
colorant based conductive paper layer, to provide sensing interface between the
real and virtual world using various blockchain technology based oracles.
[027] In an embodiment the digital paper card comprises silver in an amount of 0.5 – 1
% by weight.
[028] In an embodiment the digital paper card can be of varying shapes and vibrant25
colours, having rectangular, square, trapezoid, cuboid or triangular conductive
traces for circuitry alongwith various multi-layers of the said substrate for an
interface of interconnection between the real world and virtual world through
blockchain network of nodes for interception of physically tangible parts,
products, objects and holding encrypted key pairs and/or tokens of those parts,30
products and objects having multiple data sets.
[029] In an aspect the present invention provides a process for preparing the conductive
paper substrate containing:
I. Grinding and Separating pine wood to obtain cellulosic fibers;6
II. Cooking, Bleaching, Cleaning, Washing of the fibers in alkaline solution;5
III. Redefining the fibers with conductive polymer paste;
IV. Placing the obtained fibers in assorted mesh arrangement of the desired traced
circuitry;
V. Drying the fibers and pasting layer of cellulosic material made with conductive
dye for further connection traces alongside conductive paper,10
VI. Further dyeing and drying the other fibers for color coded layers and treating
the interlinked arrangement with carbon black and/or graphene granules;
VII. Pressing them under hot press;
VIII. Thermal Pasting the holographic Polyethylene-terephthalat layer and optionally
components as per the circuitry and drying to form the required substrate.15
[030] The alkaline solution used for fibers comprises of sodium hydroxide as an active
alkali, sodium sulfide, and further using titanium dioxide for added inter-fiber
strength along with the extracts from carbon black, graphene and copper for the
conductivity of the fiber paper substrate.
[031] In yet another aspect, the present invention provides a process for preparation of20
the blockchain driven network of nodes linked with the conductive multi-layer
security paper substrate comprising numerous layer of the said paper substrate.
[032] Further, the process of manufacturing the present invention of the numerous
layered conductive color coded security paper substrate is simple, economical and
environment friendly as a viable option for mass adoption of conductive colour25
coded secure and sensing paper wallets with novel integration of blockchain
driven network of nodes for its use as a digital encrypted colour coded paper card
authenticator and/or loyalty reward program’s conductive wallet for holding
encrypted key through colour coded layers for verification; storing digitally mined
tokens for various applications incorporating oracles as a bridging tool between30
the multiverse of the real and virtual world using multiple data sets with various
smart contracts executed over the blockchain driven network of nodes in real time
data generated.7
[033] In an embodiment the colour coded encrypted paper card authenticator and/or5
loyalty reward program’s digital paper conductive wallet is having thickness in
the range between 1 - 3 mm.
[034] In an embodiment the substrate used is recyclable and eco-friendly.
[035] In yet another aspect, the present invention provides a process of the multi-link
created with the said substrate alongside the application programming interface10
with the generation of the key pair value and further the wallet for holding
encrypted key for verification; authentication; storing digitally mined tokens over
the web3 application through the Blockchain driven network of nodes in real time
data using the hash generated in the peer to peer storage network with unique
identifiers for transactions and mappings. The human-machine interaction is done15
using the public key cryptography with the use of trapdoor functions along with
the asymmetric encryption for several operations like verification, authentication,
deposits and loyalty tokens program. The oracles linked to various smart contracts
executed over the network for varying range of web3 applications to keep the
bridging of multiverse of the real and virtual world through the on chain and off20
chain data packets for the human-machine interaction up to date alongside
features like staking and the rewards exchange program using the real time data
generated.
[036] In an embodiment, the colour coded layers of the present invention, also hold a
unique interoperability reference of an interactive experience within its node of25
networks for several augmented reality based applications in various fields of
science, technology, engineering, art, math, dance, music, entertainment,
educational puzzles like the other through the image processed data and further
oracle based smart contracts for verification, authentication, deposits and rewards
programs in form of either colour coded data/ augmented reality hash code.30
[037] In an embodiment, the multilink with the present invention is connected to a web3
application using nodes in form of electronic devices like phone, laptop, tablets
like the other, running through the colour coded layers of the present invention
for storing and transmitting data and generating hash for those transactions which
are monitored using the several oracle based applications operating on the35
blockchain network connected to the present invention for an additional layer of8
data security with immutable data entries leading to transparency and trust in the5
network for the tokenecomics operating in the blockchain network in form of
Crypto-Tokens by paying the network gas fees. The Crypto-Tokens running on
the network associated to the present invention could be digitally mined, deposited
and stored in the present invention and further could be staked for tokens using
interoperability with the other blockchain networks namely Ethereum, Solana,10
Cardnano, Binance, Coinbase, Ripple like the other, using the authentication
feature and also for loyalty token reward programs operating on the present
invention respectively.
[038] In an embodiment, the present invention is connected to the underlying blockchain
network using web3 applications holding digitally mined and loyalty rewards15
program based tokens dealing with the decentralised tokenization of real world
assets with improved efficiency, less time and access to the global markets with
increased substainability and trust in the network for use of fiat currency as
exchanges for various applications involving product tracing and tracebility;
improved transparency for non-tampering of products; supply chain management;20
easy claims; process automation with optimised usage of energy; instant
settlements; subscriber authentication; confidential data management; cross
border trade and customer loyalty affiliate programs like the other.
[039] In an embodiment, the blockchain network of the present invention used can be
permissionless or permissioned operating under varying protocols of public or25
private or hybrid constrium network.
[040] In an embodiment, the present invention can optionally be made to be sticking
surfaces or devices with an additional coated layer using adhesives to the outer
side of the paper substrate to widen the scope, usage and scalability of the present
invention.30
[041] In an embodiment, the present invention is connected to the web3 application
using the interoperable multilink established with the functionality of read and/or
write, in form of immutable data entries to record ledger pertaining to transactions
and entries of various types leading to the creation; verification and the addition
of verified blocks to the chain, following consensus mechanism and network35
protocols.9
Description:Please see attached , Claims:1. A secured conductive paper substrate with an integration of blockchain driven networks, comprising of-
- a material having 40 to 50 % by weight of the fiber cellulose of a pine wood pulp, 20 to 25% tracheid cells, 1 to 2 % by weight of starch, 3 to 4 % conductive paste, 0.05 to 1% dye, 2 to 3% copper, and 1 to 2 % titanium dioxide;
- a pine wood is grinded and separated to obtain cellulosic fibers; and the said fibers are cooked, bleached, cleaned, and washed in an alkaline solution;
- the obtained fibers are placed in an assorted mesh arrangement of the desired traced circuitry;
- a layer of cellulosic material made with a conductive dye is dried and pasted for connection traces alongside conductive paper; and the other fibers are dyed for colour coded layers; and the interlinked arrangement are treated with carbon black and/or graphene granules and the said interlinked arrangement is pressed under hot press;
- a holographic Polyethylene-terephthalat layer and colour coded layers are thermally pasted; and
- a blockchain driven network of nodes is integrated for its use as a digital encrypted colour coded paper card as authenticator and/or token holder comprising multilayers of the security paper fiber substrate with desired circuitry for the interoperable multilink communication with the web3 applications for physically tangible parts, products and objects in form of crypto-tokens.

2. The substrate as claimed in claim 1, wherein the said substrate is conductive for transfer of data, with the length of its fiber is 2-3mm.
3. The substrate as claimed in claim 1, wherein the obtained fibers are placed in a mesh arrangement interlinked with conductive paste for the desired traced circuitry and components.
4. The substrate as claimed in claim 1, wherein the said substrate comprising fiber cellulose of the pine wood pulp, and at least one conductive dye agent, silver aluminium.
5. The substrate as claimed in claim 1, wherein the other fibers for color coded layers are treated with dye;
6. The substrate as claimed in claim 1, wherein the dye used is food and plant pigments or synthetic dyes, which include CMYK colour scheme or RGB colour scheme using single or amalgamation of the several dyes from Strawberries (pink), Turmeric (yellow), Beet, Kathha (Red), Jamun (purple) E 104 (Yellow Quinolline), E 122 Carmoisine, E 124 Ponceau 4R, E131 Patent Blue V, 142 Green S, FD, Erythrosine E 127, Allure Red E 129 , Tartrazine E 102, Sunset yellow E 110, Indigo carmine E 132.

7. The substrate as claimed in claim 1 wherein the said substrate can also be used as a loyalty reward programs paper encrypted card, comprising multilayers of the security paper fiber substrate with the desired circuitry for holding encrypted key pairs for verification; storing digitally mined crypto tokens; deposits and claims of crypto-tokens.

8. The substrate as claimed in claim 1 wherein the conductive paper substrate is integrated with web3 applications incorporating oracles and application programming interface as a bridging tool between multiverse of the real and virtual world using multiple data sets with various smart contracts executed over the blockchain driven network of nodes in the real time data generated.

9. The substrate as claimed in claim 1 wherein the thickness of the conductive colour coded multi-layer paper card used as an authenticator and/or wallet is 1-3mm.

10. The substrate as claimed in claim 1 wherein the said integration of blockchain network used can be permission less or permissioned operating under varying protocols of public or private or hybrid consortium network and following a Delegated Proof-of-Stake or Proof of Authority consensus mechanism.

11. The substrate as claimed in claim 1 wherein the conductive paper card can be of varying shapes and vibrant colours, having rectangular, square, trapezoid, cuboid or triangular conductive traces for circuitry alongwith various multi-layers of the said substrate for an interface of interconnection between the real world and virtual world through blockchain network of nodes for physically tangible parts and products in form of crypto-tokens, using the peer-to-peer storage network of image processed data using oracle based smart contracts of the web3 applications with several features like deposit; claims; redemptions

12. A process for preparing a secured conductive paper substrate with an integration of blockchain driven networks, comprising the steps of:

I. Using, a material having 40 to 50 % by weight of the fiber cellulose of a pine wood pulp, 20 to 25% tracheid cells, 1 to 2 % by weight of starch, 3 to 4 % conductive paste, 0.05 to 1% dye, 2 to 3% copper, and 1 to 2 % titanium dioxide
II. Grinding and Separating, pine wood to obtain cellulosic fibers;
III. Cooking, Bleaching, Cleaning, Washing of the fibers in alkaline solution;
IV. Redefining, the fibers with conductive polymer paste;
V. Placing, the obtained fibers in assorted mesh arrangement of the desired traced circuitry;
VI. Drying, the fibers and pasting layer of cellulosic material made with conductive dye for further connection traces alongside conductive paper,
VII. Dyeing, the other fibers for color coded layers and Treating the interlinked arrangement with carbon black and/or graphene granules;
VIII. Pressing them under hot press;
IX. Thermal Pasting, the holograhic Polyethylene-terephthalat layer and colour coded layers and optionally components and drying to form the required substrate.
X. Integrating, a blockchain driven network of nodes for its use as a digital encrypted colour coded paper card as authenticator and/or token holder, comprising multilayers of the security paper fiber substrate with desired circuitry for the interoperable multilink communication with the web3 applications for physically tangible parts or products in form of crypto-tokens.

13. The process claimed in the claim 12, wherein the alkaline solution used for fibers comprises of sodium hydroxide as an active alkali, sodium sulfide, and further using titanium dioxide for added inter-fiber strength along with the extracts from carbon black, graphene and copper for the conductivity of the fiber paper substrate.
14. The process claimed in claim 12, wherein manufacturing is carried out at an ambient temperature in a clean facility.
15. The process as claimed in claim 12, wherein the said conductive colour coded and sensing paper wallet can also be used as a loyalty reward programs paper encrypted card, comprising multilayers of the security paper fiber substrate with the desired circuitry for holding encrypted key pairs for verification; storing digitally mined crypto tokens; deposits and claims of crypto-tokens.
16. The process as claimed in claim 12, wherein the conductive paper substrate is integrated with various web3 applications incorporating oracles as a bridging tool between the multiverses of the real and virtual world using multiple data sets with various smart contracts executed with token rewards over the blockchain driven network of nodes in the real time data generated.
17. The process as claimed in claim 12, wherein the thickness of the conductive colour coded multi-layer paper card used as an authenticator and/or wallet is 1-3mm.
18. The process as claimed in claim 12, wherein the said integration of blockchain network can be permission less or permissioned operating under varying protocols of public or private or hybrid consortium network and following Delegated Proof-of-Stake or Proof of Authority consensus mechanism.
19. The process as claimed in claim 12, wherein the said underlying blockchain network using web3 applications deals with the decentralised tokenization of real world assets, physically tangible parts or products with trust-registry in the network for various applications involving product tracing and tracebility; improved transparency for non-tampering of products; easy claims; gaming assets and process automation with optimised usage of energy; instant settlements; subscriber authentication; confidential data management; cross border trade and customer loyalty affiliate programs in form of crypto-tokens, accessed using encrypted key pairs uniquely mapped to addresses and transactions.
20. The process as claimed in claim 12, wherein the colour coded layers of the present invention, hold a unique interoperability reference in form of tokens for an interactive experience within its node of blockchain network for several multiverse of augmented reality based web3 applications in various fields of science, technology, engineering, art, math, dance, music, entertainment, educational puzzles and games, using the mobile phone; internet of thing devices and/or the augmented reality gears.
21. The process as claimed in claim 12, wherein the interoperability of the interconnection in on-chain and off-chain data packets in the present invention allows for the staking of the crypto-tokens connected to blockchain network with other blockchain networks using fiat currency as exchange conversion of token and its price on platforms using the real time data generated through oracles and the web3 applications executing smart contracts for staking, holding and selling tokens.
22. The process as claimed in claim 12, wherein the governance of the blockchain network is done with a regulation framework alongside trust registry set-up as an active stakeholder of the whole network using consensus mechanism making it efficient; trust-worthy; transparent; immutable; easy claims and faster settlements with deposits and withdrawals of the crypto-tokens.